/* * Next Scripting Framework * * Copyright (C) 1999-2010 Gustaf Neumann (a), Uwe Zdun (a) * * (a) Vienna University of Economics and Business Administration * Institute. of Information Systems and New Media * A-1090, Augasse 2-6 * Vienna, Austria * * (b) University of Essen * Specification of Software Systems * Altendorferstrasse 97-101 * D-45143 Essen, Germany * * Permission to use, copy, modify, distribute, and sell this * software and its documentation for any purpose is hereby granted * without fee, provided that the above copyright notice appear in * all copies and that both that copyright notice and this permission * notice appear in supporting documentation. We make no * representations about the suitability of this software for any * purpose. It is provided "as is" without express or implied * warranty. * * * This software is based upon MIT Object Tcl by David Wetherall and * Christopher J. Lindblad, that contains the following copyright * message: * * "Copyright 1993 Massachusetts Institute of Technology * * Permission to use, copy, modify, distribute, and sell this * software and its documentation for any purpose is hereby granted * without fee, provided that the above copyright notice appear in * all copies and that both that copyright notice and this * permission notice appear in supporting documentation, and that * the name of M.I.T. not be used in advertising or publicity * pertaining to distribution of the software without specific, * written prior permission. M.I.T. makes no representations about * the suitability of this software for any purpose. It is * provided "as is" without express or implied warranty." * */ #define NSF_C 1 #include "nsfInt.h" #include "nsfAccessInt.h" #ifdef COMPILE_NSF_STUBS # if defined(PRE86) extern NsfStubs nsfStubs; # else MODULE_SCOPE const NsfStubs * const nsfConstStubPtr; # endif #endif #ifdef NSF_MEM_COUNT int nsfMemCountInterpCounter = 0; #endif #ifdef USE_TCL_STUBS # define Nsf_ExprObjCmd(clientData, interp, objc, objv) \ NsfCallCommand(interp, NSF_EXPR, objc, objv) # define Nsf_SubstObjCmd(clientData, interp, objc, objv) \ NsfCallCommand(interp, NSF_SUBST, objc, objv) #else # define Nsf_ExprObjCmd(clientData, interp, objc, objv) \ Tcl_ExprObjCmd(clientData, interp, objc, objv) # define Nsf_SubstObjCmd(clientData, interp, objc, objv) \ Tcl_SubstObjCmd(clientData, interp, objc, objv) #endif /* * Call Stack specific definitions */ typedef enum { CALLING_LEVEL, ACTIVE_LEVEL } CallStackLevel; typedef struct callFrameContext { int framesSaved; Tcl_CallFrame *framePtr; Tcl_CallFrame *varFramePtr; } callFrameContext; typedef struct NsfProcContext { ClientData oldDeleteData; Tcl_CmdDeleteProc *oldDeleteProc; NsfParamDefs *paramDefs; } NsfProcContext; /* * TclCmdClientdata is an incomplete type containing the common * field(s) of ForwardCmdClientData, AliasCmdClientData and * SetterCmdClientData used for filling in at runtime the actual * object. */ typedef struct TclCmdClientData { NsfObject *object; } TclCmdClientData; typedef struct SetterCmdClientData { NsfObject *object; NsfParam *paramsPtr; } SetterCmdClientData; typedef struct ForwardCmdClientData { NsfObject *object; Tcl_Obj *cmdName; Tcl_ObjCmdProc *objProc; ClientData clientData; int passthrough; int needobjmap; int verbose; int hasNonposArgs; int nr_args; Tcl_Obj *args; int objscope; Tcl_Obj *onerror; Tcl_Obj *prefix; int nr_subcommands; Tcl_Obj *subcommands; } ForwardCmdClientData; typedef struct AliasCmdClientData { NsfObject *object; Tcl_Obj *cmdName; Tcl_ObjCmdProc *objProc; ClientData clientData; NsfClass *class; Tcl_Interp *interp; Tcl_Command aliasedCmd; Tcl_Command aliasCmd; } AliasCmdClientData; /* * Argv parsing specific definitions */ #define PARSE_CONTEXT_PREALLOC 20 typedef struct { ClientData *clientData; Tcl_Obj **objv; Tcl_Obj **full_objv; int *flags; ClientData clientData_static[PARSE_CONTEXT_PREALLOC]; Tcl_Obj *objv_static[PARSE_CONTEXT_PREALLOC+1]; int flags_static[PARSE_CONTEXT_PREALLOC+1]; int lastobjc; int objc; int mustDecr; int varArgs; NsfObject *object; } ParseContext; static NsfTypeConverter ConvertToNothing; /* * Tcl_Obj Types for Next Scripting Objects */ static Tcl_ObjType CONST86 *byteCodeType = NULL, *tclCmdNameType = NULL, *listType = NULL; /* * Function prototypes */ /* prototypes for method defintions */ static int NsfNextMethod(NsfObject *object, Tcl_Interp *interp, NsfClass *givenCl, CONST char *givenMethodName, int objc, Tcl_Obj *CONST objv[], int useCSObjs, NsfCallStackContent *cscPtr); static int NsfForwardMethod(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]); static int NsfObjscopedMethod(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]); static int NsfSetterMethod(ClientData clientData, Tcl_Interp *interp, int objc,Tcl_Obj *CONST objv[]); /* prototypes for methods called directly when CallDirectly() returns NULL */ static int NsfCAllocMethod(Tcl_Interp *interp, NsfClass *cl, Tcl_Obj *nameObj); static int NsfCCreateMethod(Tcl_Interp *interp, NsfClass *cl, CONST char *name, int objc, Tcl_Obj *CONST objv[]); static int NsfOCleanupMethod(Tcl_Interp *interp, NsfObject *object); static int NsfOConfigureMethod(Tcl_Interp *interp, NsfObject *object, int objc, Tcl_Obj *CONST objv[]); static int NsfODestroyMethod(Tcl_Interp *interp, NsfObject *object); static int NsfOResidualargsMethod(Tcl_Interp *interp, NsfObject *object, int objc, Tcl_Obj *CONST objv[]); static int DispatchDestroyMethod(Tcl_Interp *interp, NsfObject *object, int flags); NSF_INLINE static int ObjectDispatch(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], int flags); /* prototypes for object life-cycle management */ static int DoDealloc(Tcl_Interp *interp, NsfObject *object); static int RecreateObject(Tcl_Interp *interp, NsfClass *cl, NsfObject *object, int objc, Tcl_Obj *CONST objv[]); static void FinalObjectDeletion(Tcl_Interp *interp, NsfObject *object); static void FreeAllNsfObjectsAndClasses(Tcl_Interp *interp, Tcl_HashTable *commandNameTable); static void CallStackDestroyObject(Tcl_Interp *interp, NsfObject *object); static void PrimitiveCDestroy(ClientData clientData); static void PrimitiveODestroy(ClientData clientData); static void PrimitiveDestroy(ClientData clientData); /* prototypes for object lookup */ static NsfObject *GetObjectFromString(Tcl_Interp *interp, CONST char *name); static NsfClass *GetClassFromString(Tcl_Interp *interp, CONST char *name); static void GetAllInstances(Tcl_Interp *interp, Tcl_HashTable *destTable, NsfClass *startClass); /* prototypes for namespace specific calls*/ static Tcl_Obj *NameInNamespaceObj(Tcl_Interp *interp, CONST char *name, Tcl_Namespace *ns); static Tcl_Namespace *CallingNameSpace(Tcl_Interp *interp); NSF_INLINE static Tcl_Command NSFindCommand(Tcl_Interp *interp, CONST char *name, Tcl_Namespace *ns); static Tcl_Namespace *NSGetFreshNamespace(Tcl_Interp *interp, ClientData clientData, CONST char *name, int create); /* prototypes for filters and mixins */ static void FilterComputeDefined(Tcl_Interp *interp, NsfObject *object); static void MixinComputeDefined(Tcl_Interp *interp, NsfObject *object); NSF_INLINE static void GuardAdd(Tcl_Interp *interp, NsfCmdList *filterCL, Tcl_Obj *guardObj); static int GuardCall(NsfObject *object, NsfClass *cl, Tcl_Command cmd, Tcl_Interp *interp, Tcl_Obj *guardObj, NsfCallStackContent *cscPtr); static void GuardDel(NsfCmdList *filterCL); /* properties of objects and classes */ static int IsMetaClass(Tcl_Interp *interp, NsfClass *cl, int withMixins); static int IsSubType(NsfClass *subcl, NsfClass *cl); static NsfClass *DefaultSuperClass(Tcl_Interp *interp, NsfClass *cl, NsfClass *mcl, int isMeta); /* prototypes for call stack specific calls */ NSF_INLINE static void CscInit(NsfCallStackContent *cscPtr, NsfObject *object, NsfClass *cl, Tcl_Command cmd, int frameType); NSF_INLINE static void CscFinish(Tcl_Interp *interp, NsfCallStackContent *cscPtr); static NsfCallStackContent *CallStackGetFrame(Tcl_Interp *interp, Tcl_CallFrame **framePtrPtr); NSF_INLINE static void CallStackDoDestroy(Tcl_Interp *interp, NsfObject *object); /* prototypes for parameter and argument management */ static int NsfInvalidateObjectParameterCmd(Tcl_Interp *interp, NsfClass *cl); static int ProcessMethodArguments(ParseContext *pcPtr, Tcl_Interp *interp, NsfObject *object, int pushFrame, NsfParamDefs *paramDefs, CONST char *methodName, int objc, Tcl_Obj *CONST objv[]); static int ArgumentCheck(Tcl_Interp *interp, Tcl_Obj *objPtr, struct NsfParam CONST *pPtr, int doCheck, int *flags, ClientData *clientData, Tcl_Obj **outObjPtr); static int ParameterCheck(Tcl_Interp *interp, Tcl_Obj *objPtr, Tcl_Obj *valueObj, const char *varNamePrefix, int doCheck, NsfParam **paramPtrPtr); static void ParamDefsFree(NsfParamDefs *paramDefs); static int ParamSetFromAny(Tcl_Interp *interp, register Tcl_Obj *objPtr); /* prototypes for alias management */ static int AliasDelete(Tcl_Interp *interp, Tcl_Obj *cmdName, CONST char *methodName, int withPer_object); static Tcl_Obj *AliasGet(Tcl_Interp *interp, Tcl_Obj *cmdName, CONST char *methodName, int withPer_object); static int AliasDeleteObjectReference(Tcl_Interp *interp, Tcl_Command cmd); /* misc prototypes */ static int NsfDeprecatedCmd(Tcl_Interp *interp, CONST char *what, CONST char *oldCmd, CONST char *newCmd); static int SetInstVar(Tcl_Interp *interp, NsfObject *object, Tcl_Obj *nameObj, Tcl_Obj *valueObj); static int ListDefinedMethods(Tcl_Interp *interp, NsfObject *object, CONST char *pattern, int withPer_object, int methodType, int withCallproctection, int noMixins, int inContext); /* * argv parsing */ static void ParseContextInit(ParseContext *pcPtr, int objc, NsfObject *object, Tcl_Obj *procName) { if (objc < PARSE_CONTEXT_PREALLOC) { /* the single larger memset below .... */ memset(pcPtr, 0, sizeof(ParseContext)); /* ... is faster than the two smaller memsets below */ /* memset(pcPtr->clientData_static, 0, sizeof(ClientData)*(objc)); memset(pcPtr->objv_static, 0, sizeof(Tcl_Obj*)*(objc+1));*/ pcPtr->full_objv = &pcPtr->objv_static[0]; pcPtr->clientData = &pcPtr->clientData_static[0]; pcPtr->flags = &pcPtr->flags_static[0]; } else { pcPtr->full_objv = (Tcl_Obj **)ckalloc(sizeof(Tcl_Obj*)*(objc+1)); pcPtr->flags = (int*)ckalloc(sizeof(int)*(objc+1)); pcPtr->clientData = (ClientData*)ckalloc(sizeof(ClientData)*objc); /*fprintf(stderr, "ParseContextMalloc %d objc, %p %p\n", objc, pcPtr->full_objv, pcPtr->clientData);*/ memset(pcPtr->full_objv, 0, sizeof(Tcl_Obj*)*(objc+1)); memset(pcPtr->flags, 0, sizeof(int)*(objc+1)); memset(pcPtr->clientData, 0, sizeof(ClientData)*(objc)); } pcPtr->objv = &pcPtr->full_objv[1]; pcPtr->full_objv[0] = procName; pcPtr->object = object; pcPtr->varArgs = 0; pcPtr->mustDecr = 0; } static void ParseContextExtendObjv(ParseContext *pcPtr, int from, int elts, Tcl_Obj *CONST source[]) { int requiredSize = from + elts + 1; /*NsfPrintObjv("BEFORE: ", pcPtr->objc, pcPtr->full_objv);*/ if (requiredSize >= PARSE_CONTEXT_PREALLOC) { if (pcPtr->objv == &pcPtr->objv_static[1]) { /* realloc from preallocated memory */ pcPtr->full_objv = (Tcl_Obj **)ckalloc(sizeof(Tcl_Obj*) * requiredSize); memcpy(pcPtr->full_objv, &pcPtr->objv_static[0], sizeof(Tcl_Obj*) * PARSE_CONTEXT_PREALLOC); /*fprintf(stderr, "alloc %d new objv=%p pcPtr %p\n", requiredSize, pcPtr->full_objv, pcPtr);*/ } else { /* realloc from mallocated memory */ pcPtr->full_objv = (Tcl_Obj **)ckrealloc((char *)pcPtr->full_objv, sizeof(Tcl_Obj*) * requiredSize); /*fprintf(stderr, "realloc %d new objv=%p pcPtr %p\n", requiredSize, pcPtr->full_objv, pcPtr);*/ } pcPtr->objv = &pcPtr->full_objv[1]; } memcpy(pcPtr->objv + from, source, sizeof(Tcl_Obj *) * (elts)); pcPtr->objc += elts; /*NsfPrintObjv("AFTER: ", pcPtr->objc, pcPtr->full_objv);*/ } static void ParseContextRelease(ParseContext *pcPtr) { if (pcPtr->mustDecr) { int i; for (i = 0; i < pcPtr->lastobjc; i++) { if (pcPtr->flags[i] & NSF_PC_MUST_DECR) { DECR_REF_COUNT(pcPtr->objv[i]); } } } /* objv can be separately extended */ if (pcPtr->objv != &pcPtr->objv_static[1]) { /*fprintf(stderr, "ParseContextRelease %p free %p %p\n", pcPtr, pcPtr->full_objv, pcPtr->clientData);*/ ckfree((char *)pcPtr->full_objv); } /* if the parameter definition was extended, both clientData and flags are extended */ if (pcPtr->clientData != &pcPtr->clientData_static[0]) { /*fprintf(stderr, "free clientdata and flags\n");*/ ckfree((char *)pcPtr->clientData); ckfree((char *)pcPtr->flags); } } /* * Var Reform Compatibility support. * * Definitions for accessing Tcl variable structures after varreform * in Tcl 8.5. */ #define TclIsCompiledLocalArgument(compiledLocalPtr) ((compiledLocalPtr)->flags & VAR_ARGUMENT) #define TclIsCompiledLocalTemporary(compiledLocalPtr) ((compiledLocalPtr)->flags & VAR_TEMPORARY) #define VarHashGetValue(hPtr) ((Var *) ((char *)hPtr - TclOffset(VarInHash, entry))) #define VarHashGetKey(varPtr) (((VarInHash *)(varPtr))->entry.key.objPtr) #define VarHashTable(varTable) &(varTable)->table #define valueOfVar(type, varPtr, field) (type *)(varPtr)->value.field NSF_INLINE static Tcl_Namespace * ObjFindNamespace(Tcl_Interp *interp, Tcl_Obj *objPtr) { Tcl_Namespace *nsPtr; if (TclGetNamespaceFromObj(interp, objPtr, &nsPtr) == TCL_OK) { return nsPtr; } else { return NULL; } } static NSF_INLINE Var * VarHashCreateVar(TclVarHashTable *tablePtr, Tcl_Obj *key, int *newPtr) { Var *varPtr = NULL; Tcl_HashEntry *hPtr; hPtr = Tcl_CreateHashEntry((Tcl_HashTable *) tablePtr, (char *) key, newPtr); if (hPtr) { varPtr = VarHashGetValue(hPtr); } return varPtr; } static TclVarHashTable * VarHashTableCreate() { TclVarHashTable *varTablePtr = (TclVarHashTable *) ckalloc(sizeof(TclVarHashTable)); TclInitVarHashTable(varTablePtr, NULL); return varTablePtr; } /* * call an Next Scripting method */ static int CallMethod(ClientData clientData, Tcl_Interp *interp, Tcl_Obj *methodObj, int objc, Tcl_Obj *CONST objv[], int flags) { NsfObject *object = (NsfObject*) clientData; int result; ALLOC_ON_STACK(Tcl_Obj*, objc, tov); /*fprintf(stderr, "%%%% callmethod called with method %p\n", methodObj),*/ tov[0] = object->cmdName; tov[1] = methodObj; if (objc>2) memcpy(tov+2, objv, sizeof(Tcl_Obj *)*(objc-2)); /*fprintf(stderr, "%%%% CallMethod cmdname=%s, method=%s, objc=%d\n", ObjStr(tov[0]), ObjStr(tov[1]), objc); {int i; fprintf(stderr, "\t CALL: %s ", ObjStr(methodObj));for(i=0; i1); tov[0] = object->cmdName; tov[1] = methodObj; if (objc>2) { tov[2] = arg; } if (objc>3) memcpy(tov+3, objv, sizeof(Tcl_Obj *)*(objc-3)); /*fprintf(stderr, "%%%% CallMethodWithArg cmdname=%s, method=%s, objc=%d\n", ObjStr(tov[0]), ObjStr(tov[1]), objc);*/ result = ObjectDispatch(clientData, interp, objc, tov, flags); FREE_ON_STACK(Tcl_Obj*, tov); return result; } #include "nsfStack.c" /* extern callable GetSelfObj */ Nsf_Object* NsfGetSelfObj(Tcl_Interp *interp) { return (Nsf_Object*)GetSelfObj(interp); } #ifdef DISPATCH_TRACE static void PrintObjv(int objc, Tcl_Obj *CONST objv[]) { int i, j; fprintf(stderr, "(%d)", objc); if (objc <= 3) j = objc; else j = 3; for (i=0;i 3) fprintf(stderr, " ..."); fprintf(stderr, " (objc=%d)", objc); } static void PrintCall(Tcl_Interp *interp, CONST char *string, int objc, Tcl_Obj *CONST objv[]) { fprintf(stderr, " (%d) >%s: ", Tcl_Interp_numLevels(interp), string); PrintObjv(objc, objv); fprintf(stderr, "\n"); } static void PrintExit(Tcl_Interp *interp, CONST char *string, int objc, Tcl_Obj *CONST objv[], int result) { fprintf(stderr, " (%d) <%s: ", Tcl_Interp_numLevels(interp), string); /*PrintObjv(objc, objv);*/ fprintf(stderr, " result=%d '%s'\n", result, ObjStr(Tcl_GetObjResult(interp))); } #endif /* * NsfObject Reference Accounting */ #if defined(NSFOBJ_TRACE) # define NsfObjectRefCountIncr(obj) \ (obj)->refCount++; \ fprintf(stderr, "RefCountIncr %p count=%d %s\n", obj, obj->refCount, obj->cmdName?ObjStr(obj->cmdName):"no name"); \ MEM_COUNT_ALLOC("NsfObject RefCount", obj) # define NsfObjectRefCountDecr(obj) \ (obj)->refCount--; \ fprintf(stderr, "RefCountDecr %p count=%d\n", obj, obj->refCount); \ MEM_COUNT_FREE("NsfObject RefCount", obj) #else # define NsfObjectRefCountIncr(obj) \ (obj)->refCount++; \ MEM_COUNT_ALLOC("NsfObject RefCount", obj) # define NsfObjectRefCountDecr(obj) \ (obj)->refCount--; \ MEM_COUNT_FREE("NsfObject RefCount", obj) #endif #if defined(NSFOBJ_TRACE) void ObjTrace(char *string, NsfObject *object) { if (object) fprintf(stderr, "--- %s tcl %p %s (%d %p) nsf %p (%d) %s \n", string, object->cmdName, object->cmdName->typePtr ? object->cmdName->typePtr->name : "NULL", object->cmdName->refCount, object->cmdName->internalRep.twoPtrValue.ptr1, object, obj->refCount, objectName(object)); else fprintf(stderr, "--- No object: %s\n", string); } #else # define ObjTrace(a, b) #endif /* search for tail of name */ static CONST char * NSTail(CONST char *string) { register char *p = (char *)string+strlen(string); while (p > string) { if (*p == ':' && *(p-1) == ':') return p+1; p--; } return string; } NSF_INLINE static int IsClassNsName(CONST char *string) { return (strncmp((string), "::nsf::classes", 14) == 0); } /* removes preceding ::nsf::classes from a string */ NSF_INLINE static CONST char * NSCutNsfClasses(CONST char *string) { assert(strncmp((string), "::nsf::classes", 14) == 0); return string+14; } NSF_INLINE static NsfObject * GetObjectFromNsName(Tcl_Interp *interp, CONST char *string, int *fromClassNS) { /* * Get object or class from a fully qualified cmd name, such as * e.g. ::nsf::classes::X */ if (IsClassNsName(string)) { *fromClassNS = 1; return (NsfObject *)GetClassFromString(interp, NSCutNsfClasses(string)); } else { *fromClassNS = 0; return GetObjectFromString(interp, string); } } NSF_INLINE static char * NSCmdFullName(Tcl_Command cmd) { Tcl_Namespace *nsPtr = Tcl_Command_nsPtr(cmd); return nsPtr ? nsPtr->fullName : ""; } static void NsfCleanupObject(NsfObject *object) { NsfObjectRefCountDecr(object); if (object->refCount <= 0) { /*fprintf(stderr, "NsfCleanupObject %p refcount %d\n", object, object->refCount);*/ assert(object->refCount == 0); assert(object->flags & NSF_DELETED); MEM_COUNT_FREE("NsfObject/NsfClass", object); #if defined(NSFOBJ_TRACE) fprintf(stderr, "CKFREE Object %p refcount=%d\n", object, object->refCount); #endif #if !defined(NDEBUG) memset(object, 0, sizeof(NsfObject)); #endif ckfree((char *) object); } } /* * Tcl_Obj functions for objects */ static int IsNsfTclObj(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfObject **objectPtr) { Tcl_ObjType CONST86 *cmdType = objPtr->typePtr; if (cmdType == tclCmdNameType) { Tcl_Command cmd = Tcl_GetCommandFromObj(interp, objPtr); if (cmd) { NsfObject *object = NsfGetObjectFromCmdPtr(cmd); if (object) { *objectPtr = object; return 1; } } } return 0; } /* Lookup an Next Scripting object from the given objPtr, preferably * from an object of type "cmdName". objPtr might be converted in this * process. */ static int GetObjectFromObj(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfObject **objectPtr) { int result; NsfObject *nobject; CONST char *string; Tcl_Command cmd; /*fprintf(stderr, "GetObjectFromObj obj %p %s is of type %s\n", objPtr, ObjStr(objPtr), objPtr->typePtr ? objPtr->typePtr->name : "(null)");*/ /* in case, objPtr was not of type cmdName, try to convert */ cmd = Tcl_GetCommandFromObj(interp, objPtr); /*fprintf(stderr, "GetObjectFromObj obj %s => cmd=%p (%d)\n", ObjStr(objPtr), cmd, cmd ? Tcl_Command_refCount(cmd):-1);*/ if (cmd) { NsfObject *object = NsfGetObjectFromCmdPtr(cmd); /*fprintf(stderr, "GetObjectFromObj obj %s, o is %p objProc %p NsfObjDispatch %p\n", ObjStr(objPtr), object, Tcl_Command_objProc(cmd), NsfObjDispatch);*/ if (object) { if (objectPtr) *objectPtr = object; return TCL_OK; } } /*fprintf(stderr, "GetObjectFromObj convertFromAny for %s type %p %s\n", ObjStr(objPtr), objPtr->typePtr, objPtr->typePtr ? objPtr->typePtr->name : "(none)");*/ /* In case, we have to revolve via the CallingNameSpace (i.e. the * argument is not fully qualified), we retry here. */ string = ObjStr(objPtr); if (!isAbsolutePath(string)) { Tcl_Obj *tmpName = NameInNamespaceObj(interp, string, CallingNameSpace(interp)); CONST char *nsString = ObjStr(tmpName); INCR_REF_COUNT(tmpName); nobject = GetObjectFromString(interp, nsString); /*fprintf(stderr, " RETRY, string '%s' returned %p\n", nsString, nobj);*/ DECR_REF_COUNT(tmpName); } else { nobject = NULL; } if (nobject) { if (objectPtr) *objectPtr = nobject; result = TCL_OK; } else { result = TCL_ERROR; } return result; } static int GetClassFromObj(Tcl_Interp *interp, register Tcl_Obj *objPtr, NsfClass **cl, NsfClass *baseClass) { NsfObject *object; NsfClass *cls = NULL; int result = TCL_OK; CONST char *objName = ObjStr(objPtr); Tcl_Command cmd; /*fprintf(stderr, "GetClassFromObj %s base %p\n", objName, baseClass);*/ cmd = Tcl_GetCommandFromObj(interp, objPtr); if (cmd) { cls = NsfGetClassFromCmdPtr(cmd); if (cls == NULL) { /* * We have a cmd, but no class; namesspace-imported classes are * already resolved, but we have to care, if a class is * "imported" via "interp alias". */ Tcl_Interp *alias_interp; const char *alias_cmd_name; Tcl_Obj *nameObj = objPtr; Tcl_Obj **alias_ov; int alias_oc = 0; if (!isAbsolutePath(objName)) { nameObj = NameInNamespaceObj(interp, objName, CallingNameSpace(interp)); objName = ObjStr(nameObj); /* adjust path for documented nx.tcl */ } result = Tcl_GetAliasObj(interp, objName, &alias_interp, &alias_cmd_name, &alias_oc, &alias_ov); /* we only want aliases with 0 args */ if (result == TCL_OK && alias_oc == 0) { cmd = NSFindCommand(interp, alias_cmd_name, NULL); /*fprintf(stderr, "..... alias arg 0 '%s' cmd %p\n", alias_cmd_name, cmd);*/ if (cmd) { cls = NsfGetClassFromCmdPtr(cmd); } } /*fprintf(stderr, "..... final cmd %p, cls %p\n", cmd , cls);*/ if (nameObj != objPtr) { DECR_REF_COUNT(nameObj); } } if (cls) { if (cl) *cl = cls; return TCL_OK; } } result = GetObjectFromObj(interp, objPtr, &object); if (result == TCL_OK) { cls = NsfObjectToClass(object); if (cls) { if (cl) *cl = cls; return TCL_OK; } else { /* flag, that we could not convert so far */ result = TCL_ERROR; } } /*fprintf(stderr, "try __unknown for %s, result so far is %d\n", objName, result);*/ if (baseClass) { Tcl_Obj *methodObj, *nameObj = isAbsolutePath(objName) ? objPtr : NameInNamespaceObj(interp, objName, CallingNameSpace(interp)); INCR_REF_COUNT(nameObj); methodObj = NsfMethodObj(interp, &baseClass->object, NSF_c_requireobject_idx); if (methodObj) { /*fprintf(stderr, "+++ calling __unknown for %s name=%s\n", className(baseClass), ObjStr(nameObj));*/ result = CallMethod((ClientData) baseClass, interp, methodObj, 3, &nameObj, NSF_CM_NO_PROTECT); if (result == TCL_OK) { result = GetClassFromObj(interp, objPtr, cl, NULL); } } DECR_REF_COUNT(nameObj); } return result; } static Tcl_Obj * NameInNamespaceObj(Tcl_Interp *interp, CONST char *name, Tcl_Namespace *nsPtr) { Tcl_Obj *objPtr; int len; CONST char *objString; /*fprintf(stderr, "NameInNamespaceObj %s (%p, %s) ", name, nsPtr, nsPtr ? nsPtr->fullName:NULL);*/ if (!nsPtr) nsPtr = Tcl_GetCurrentNamespace(interp); /* fprintf(stderr, " (resolved %p, %s) ", nsPtr, nsPtr ? nsPtr->fullName:NULL);*/ objPtr = Tcl_NewStringObj(nsPtr->fullName, -1); len = Tcl_GetCharLength(objPtr); objString = ObjStr(objPtr); if (len == 2 && objString[0] == ':' && objString[1] == ':') { } else { Tcl_AppendLimitedToObj(objPtr, "::", 2, INT_MAX, NULL); } Tcl_AppendLimitedToObj(objPtr, name, -1, INT_MAX, NULL); /*fprintf(stderr, "returns %s\n", ObjStr(objPtr));*/ return objPtr; } extern void NsfClassListFree(NsfClasses *sl) { NsfClasses *n; for (; sl; sl = n) { n = sl->nextPtr; FREE(NsfClasses, sl); } } /* reverse class list, caller is responsible for freeing data */ static NsfClasses * NsfReverseClasses(NsfClasses *sl) { NsfClasses *firstPtr = NULL; for (; sl; sl = sl->nextPtr) { NsfClasses *element = NEW(NsfClasses); element->cl = sl->cl; element->clientData = sl->clientData; element->nextPtr = firstPtr; firstPtr = element; } return firstPtr; } extern NsfClasses ** NsfClassListAdd(NsfClasses **cList, NsfClass *cl, ClientData clientData) { NsfClasses *l = *cList, *element = NEW(NsfClasses); element->cl = cl; element->clientData = clientData; element->nextPtr = NULL; if (l) { while (l->nextPtr) l = l->nextPtr; l->nextPtr = element; } else *cList = element; return &(element->nextPtr); } void NsfObjectListFree(NsfObjects *sl) { NsfObjects *n; for (; sl; sl = n) { n = sl->nextPtr; FREE(NsfObjects, sl); } } NsfObjects** NsfObjectListAdd(NsfObjects **cList, NsfObject *object) { NsfObjects *l = *cList, *element = NEW(NsfObjects); element->obj = object; element->nextPtr = NULL; if (l) { while (l->nextPtr) l = l->nextPtr; l->nextPtr = element; } else *cList = element; return &(element->nextPtr); } /* * precedence ordering functions */ enum colors { WHITE, GRAY, BLACK }; static NsfClasses * Super(NsfClass *cl) { return cl->super; } static NsfClasses * Sub(NsfClass *cl) { return cl->sub; } static int TopoSort(NsfClass *cl, NsfClass *baseClass, NsfClasses *(*next)(NsfClass*)) { /*NsfClasses *sl = (*next)(cl);*/ NsfClasses *sl = next == Super ? cl->super : cl->sub; NsfClasses *pl; /* * careful to reset the color of unreported classes to * white in case we unwind with error, and on final exit * reset color of reported classes to white */ cl->color = GRAY; for (; sl; sl = sl->nextPtr) { NsfClass *sc = sl->cl; if (sc->color == GRAY) { cl->color = WHITE; return 0; } if (sc->color == WHITE && !TopoSort(sc, baseClass, next)) { cl->color = WHITE; if (cl == baseClass) { register NsfClasses *pc; for (pc = cl->order; pc; pc = pc->nextPtr) { pc->cl->color = WHITE; } } return 0; } } cl->color = BLACK; pl = NEW(NsfClasses); pl->cl = cl; pl->nextPtr = baseClass->order; baseClass->order = pl; if (cl == baseClass) { register NsfClasses *pc; for (pc = cl->order; pc; pc = pc->nextPtr) { pc->cl->color = WHITE; } } return 1; } static NsfClasses * TopoOrder(NsfClass *cl, NsfClasses *(*next)(NsfClass*)) { if (TopoSort(cl, cl, next)) return cl->order; NsfClassListFree(cl->order); return cl->order = NULL; } static NsfClasses * ComputeOrder(NsfClass *cl, NsfClasses *order, NsfClasses *(*direction)(NsfClass*)) { if (order) return order; return cl->order = TopoOrder(cl, direction); } extern NsfClasses * NsfComputePrecedence(NsfClass *cl) { return ComputeOrder(cl, cl->order, Super); } extern NsfClasses * NsfComputeDependents(NsfClass *cl) { return ComputeOrder(cl, cl->order, Sub); } static void FlushPrecedencesOnSubclasses(NsfClass *cl) { NsfClasses *pc; NsfClassListFree(cl->order); cl->order = NULL; pc = ComputeOrder(cl, cl->order, Sub); /* * ordering doesn't matter here - we're just using toposort * to find all lower classes so we can flush their caches */ if (pc) pc = pc->nextPtr; for (; pc; pc = pc->nextPtr) { NsfClassListFree(pc->cl->order); pc->cl->order = NULL; } NsfClassListFree(cl->order); cl->order = NULL; } static void AddInstance(NsfObject *object, NsfClass *cl) { object->cl = cl; if (cl) { int nw; (void) Tcl_CreateHashEntry(&cl->instances, (char *)object, &nw); } } static int RemoveInstance(NsfObject *object, NsfClass *cl) { if (cl) { Tcl_HashEntry *hPtr = Tcl_CreateHashEntry(&cl->instances, (char *)object, NULL); if (hPtr) { Tcl_DeleteHashEntry(hPtr); return 1; } } return 0; } /* * superclass/subclass list maintenance */ static void AS(NsfClass *cl, NsfClass *s, NsfClasses **sl) { register NsfClasses *l = *sl; while (l && l->cl != s) l = l->nextPtr; if (!l) { NsfClasses *sc = NEW(NsfClasses); sc->cl = s; sc->nextPtr = *sl; *sl = sc; } } static void AddSuper(NsfClass *cl, NsfClass *super) { if (cl && super) { /* * keep corresponding sub in step with super */ AS(cl, super, &cl->super); AS(super, cl, &super->sub); } } static int RemoveSuper1(NsfClass *cl, NsfClass *s, NsfClasses **sl) { NsfClasses *l = *sl; if (!l) return 0; if (l->cl == s) { *sl = l->nextPtr; FREE(NsfClasses, l); return 1; } while (l->nextPtr && l->nextPtr->cl != s) l = l->nextPtr; if (l->nextPtr) { NsfClasses *n = l->nextPtr->nextPtr; FREE(NsfClasses, l->nextPtr); l->nextPtr = n; return 1; } return 0; } static int RemoveSuper(NsfClass *cl, NsfClass *super) { /* * keep corresponding sub in step with super */ int sp = RemoveSuper1(cl, super, &cl->super); int sb = RemoveSuper1(super, cl, &super->sub); return sp && sb; } /* * internal type checking */ extern Nsf_Class * NsfIsClass(Tcl_Interp *interp, ClientData clientData) { if (clientData && NsfObjectIsClass((NsfObject *)clientData)) return (Nsf_Class *) clientData; return 0; } /* * methods lookup */ static int CmdIsProc(Tcl_Command cmd) { /* In 8.6: TclIsProc((Command*)cmd) is not equiv to the definition below */ return (Tcl_Command_objProc(cmd) == TclObjInterpProc); } static Proc * GetTclProcFromCommand(Tcl_Command cmd) { if (cmd) { Tcl_ObjCmdProc *proc = Tcl_Command_objProc(cmd); if (proc == TclObjInterpProc) return (Proc*) Tcl_Command_objClientData(cmd); } return NULL; } NSF_INLINE static Tcl_Command FindMethod(Tcl_Namespace *nsPtr, CONST char *methodName) { register Tcl_HashEntry *entryPtr; if ((entryPtr = Tcl_CreateHashEntry(Tcl_Namespace_cmdTable(nsPtr), methodName, NULL))) { return (Tcl_Command) Tcl_GetHashValue(entryPtr); } /*fprintf(stderr, "find %s in %p returns %p\n", methodName, cmdTable, cmd);*/ return NULL; } static Proc * FindProcMethod(Tcl_Namespace *nsPtr, CONST char *methodName) { return GetTclProcFromCommand(FindMethod(nsPtr, methodName)); } static NsfClass * SearchPLMethod(register NsfClasses *pl, CONST char *methodName, Tcl_Command *cmd) { /* Search the precedence list (class hierarchy) */ #if 1 for (; pl; pl = pl->nextPtr) { register Tcl_HashEntry *entryPtr = Tcl_CreateHashEntry(Tcl_Namespace_cmdTable(pl->cl->nsPtr), methodName, NULL); if (entryPtr) { *cmd = (Tcl_Command) Tcl_GetHashValue(entryPtr); return pl->cl; } } #else for (; pl; pl = pl->nextPtr) { if ((*cmd = FindMethod(pl->cl->nsPtr, methodName))) { return pl->cl; } } #endif return NULL; } static NsfClass * SearchCMethod(/*@notnull@*/ NsfClass *cl, CONST char *nm, Tcl_Command *cmd) { assert(cl); return SearchPLMethod(ComputeOrder(cl, cl->order, Super), nm, cmd); } /* * Find a method for a given object in the precedence path */ static Tcl_Command ObjectFindMethod(Tcl_Interp *interp, NsfObject *object, CONST char *name, NsfClass **pcl) { Tcl_Command cmd = NULL; if (!(object->flags & NSF_MIXIN_ORDER_VALID)) MixinComputeDefined(interp, object); if (object->flags & NSF_MIXIN_ORDER_DEFINED_AND_VALID) { NsfCmdList *mixinList; for (mixinList = object->mixinOrder; mixinList; mixinList = mixinList->nextPtr) { NsfClass *mixin = NsfGetClassFromCmdPtr(mixinList->cmdPtr); if (mixin && (*pcl = SearchCMethod(mixin, name, &cmd))) { if (Tcl_Command_flags(cmd) & NSF_CMD_CLASS_ONLY_METHOD && !NsfObjectIsClass(object)) { cmd = NULL; continue; } break; } } } if (!cmd && object->nsPtr) { cmd = FindMethod(object->nsPtr, name); } if (!cmd && object->cl) *pcl = SearchCMethod(object->cl, name, &cmd); return cmd; } /* *---------------------------------------------------------------------- * GetEnsembeObjectFromName -- * * Get an ensemble object from a method name. If the method name * is fully qualified, just use a Tcl lookup, otherwise get it from * the provided namespace, * * Results: * ensemble object or NULL * * Side effects: * none * *---------------------------------------------------------------------- */ static NsfObject * GetEnsembeObjectFromName(Tcl_Interp *interp, Tcl_Namespace *nsPtr, Tcl_Obj *name, Tcl_Command *cmdPtr, int *fromClassNS) { Tcl_Command cmd; char *nameString = ObjStr(name); if (*nameString == ':') { cmd = Tcl_GetCommandFromObj(interp, name); *fromClassNS = IsClassNsName(nameString); } else { cmd = nsPtr ? FindMethod(nsPtr, nameString) : NULL; } if (cmd) { *cmdPtr = cmd; return NsfGetObjectFromCmdPtr(cmd); } return NULL; } /* *---------------------------------------------------------------------- * GetRegObject -- * * Try to get the object, on which the method was registered from a * folly qaulified method handle * * Results: * NsfObject * or NULL on failure * * Side effects: * none * *---------------------------------------------------------------------- */ NsfObject * GetRegObject(Tcl_Interp *interp, Tcl_Command cmd, CONST char *methodName, CONST char **methodName1, int *fromClassNS) { NsfObject *regObject = NULL; if (cmd && *methodName == ':') { CONST char *procName = Tcl_GetCommandName(interp, cmd); size_t objNameLength = strlen(methodName) - strlen(procName) - 2; Tcl_DString ds, *dsPtr = &ds; if (objNameLength > 0) { Tcl_DStringInit(dsPtr); Tcl_DStringAppend(dsPtr, methodName, objNameLength); regObject = GetObjectFromNsName(interp, Tcl_DStringValue(dsPtr), fromClassNS); /*fprintf(stderr, "GetRegObject %s -> %p\n", Tcl_DStringValue(dsPtr), regObject);*/ if (regObject) { *methodName1 = procName; } Tcl_DStringFree(dsPtr); } } /*fprintf(stderr, "GetRegObject cmd %p methodName '%s' => %p\n", cmd, methodName, regObject);*/ return regObject; } /* *---------------------------------------------------------------------- * ResolveMethodName -- * * Resolve a method name relative to a provided namespace. * The method name can be * a) a fully qualified name * b) a list of method name and subcommands * c) a simple name * * Results: * Tcl_Command or NULL on failure * * Side effects: * none * *---------------------------------------------------------------------- */ static Tcl_Command ResolveMethodName(Tcl_Interp *interp, Tcl_Namespace *nsPtr, Tcl_Obj *methodObj, Tcl_DString *methodNameDs, NsfObject **regObject, NsfObject **defObject, CONST char **methodName1, int *fromClassNS) { Tcl_Command cmd; NsfObject *referencedObject; char* methodName = ObjStr(methodObj); if (strchr(methodName, ' ') > 0) { Tcl_Obj *methodHandleObj; Tcl_Obj **ov; int oc, result, i; /*fprintf(stderr, "name '%s' contains space \n", methodName);*/ if ((result = Tcl_ListObjGetElements(interp, methodObj, &oc, &ov) != TCL_OK) || ((referencedObject = GetEnsembeObjectFromName(interp, nsPtr, ov[0], &cmd, fromClassNS)) == NULL) ) { *methodName1 = NULL; *regObject = NULL; *defObject = NULL; return NULL; } /* * We have an ensemble object. First, figure out, on which * object/class the ensemble object was registered. We determine * the regObject on the first element of the list. If we can't, * then the current object is the regObject. */ *regObject = GetRegObject(interp, cmd, ObjStr(ov[0]), methodName1, fromClassNS); /*fprintf(stderr, "... referenced object '%s' reg %p\n", objectName(referencedObject), *regObject);*/ /* * Build a fresh methodHandleObj to held method name and names of * subcmds. */ methodHandleObj = Tcl_DuplicateObj(referencedObject->cmdName); Tcl_DStringAppend(methodNameDs, Tcl_GetCommandName(interp, cmd), -1); /* * Iterate over the objects and append to the handle and methodObj */ for (i = 1; imethods[i]; /*fprintf(stderr, "ObjectSystemFree [%d] %p ", i, methodObj);*/ if (methodObj) { /*fprintf(stderr, "%s refCount %d", ObjStr(methodObj), methodObj->refCount);*/ DECR_REF_COUNT(methodObj); } /*fprintf(stderr, "\n");*/ } if (osPtr->rootMetaClass && osPtr->rootClass) { RemoveSuper(osPtr->rootMetaClass, osPtr->rootClass); RemoveInstance((NsfObject*)osPtr->rootMetaClass, osPtr->rootMetaClass); RemoveInstance((NsfObject*)osPtr->rootClass, osPtr->rootMetaClass); FinalObjectDeletion(interp, &osPtr->rootClass->object); FinalObjectDeletion(interp, &osPtr->rootMetaClass->object); } FREE(NsfObjectSystem *, osPtr); } /* *---------------------------------------------------------------------- * ObjectSystemAdd -- * * Add and entry to the list of object systems of the interpreter. * * Results: * None. * * Side effects: * Updating the per interp list of object systems. * *---------------------------------------------------------------------- */ static void ObjectSystemAdd(Tcl_Interp *interp, NsfObjectSystem *osPtr) { osPtr->nextPtr = RUNTIME_STATE(interp)->objectSystems; RUNTIME_STATE(interp)->objectSystems = osPtr; } /* *---------------------------------------------------------------------- * ObjectSystemsCheckSystemMethod -- * * Mark in all object systems the specified method as * (potentially) overloaded and mark it in the specified * object system as defined. * * Results: * None. * * Side effects: * Updating the object system structure(s). * *---------------------------------------------------------------------- */ static void ObjectSystemsCheckSystemMethod(Tcl_Interp *interp, CONST char *methodName, NsfObjectSystem *defOsPtr) { NsfObjectSystem *osPtr; int i; for (osPtr = RUNTIME_STATE(interp)->objectSystems; osPtr; osPtr = osPtr->nextPtr) { for (i=0; i<=NSF_o_unknown_idx; i++) { Tcl_Obj *methodObj = osPtr->methods[i]; if (methodObj && !strcmp(methodName, ObjStr(methodObj))) { int flag = 1<definedMethods & flag) { osPtr->overloadedMethods |= flag; /*fprintf(stderr, "+++ %s %.6x overloading %s\n", className(defOsPtr->rootClass), osPtr->overloadedMethods, methodName);*/ } if (osPtr == defOsPtr && ((osPtr->definedMethods & flag) == 0)) { osPtr->definedMethods |= flag; /*fprintf(stderr, "+++ %s %.6x defining %s\n", className(defOsPtr->rootClass), osPtr->definedMethods, methodName);*/ } } } } } /* *---------------------------------------------------------------------- * ObjectSystemsCleanup -- * * Delete all objects from all defined object systems. This method * is to be called when an Next Scripting process or thread exists. * * Results: * None. * * Side effects: * All commands and objects are deleted, memory is freed. * *---------------------------------------------------------------------- */ static int ObjectSystemsCleanup(Tcl_Interp *interp) { Tcl_HashTable objTable, *commandNameTable = &objTable; Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; NsfObjectSystem *osPtr, *nPtr; /* Deletion is performed in two rounds: * (a) SOFT DESTROY: invoke all user-defined destroy methods * without destroying objects * (b) PHYSICAL DESTROY: delete the objects and classes, * destroy methods are not invoked anymore * * This is to prevent that the destroy order causes classes to be * deleted before the methods invoked by destroy are executed. Note * that it is necessary to iterate over all object systems * simultaneous, since the might be dependencies between objects of * different object systems. */ Tcl_InitHashTable(commandNameTable, TCL_STRING_KEYS); MEM_COUNT_ALLOC("Tcl_InitHashTable", commandNameTable); /* collect all instances from all object systems */ for (osPtr = RUNTIME_STATE(interp)->objectSystems; osPtr; osPtr = osPtr->nextPtr) { /*fprintf(stderr, "destroyObjectSystem deletes %s\n", className(osPtr->rootClass));*/ GetAllInstances(interp, commandNameTable, osPtr->rootClass); } /***** SOFT DESTROY *****/ RUNTIME_STATE(interp)->exitHandlerDestroyRound = NSF_EXITHANDLER_ON_SOFT_DESTROY; /*fprintf(stderr, "===CALL destroy on OBJECTS\n");*/ for (hPtr = Tcl_FirstHashEntry(commandNameTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { char *key = Tcl_GetHashKey(commandNameTable, hPtr); NsfObject *object = GetObjectFromString(interp, key); /* fprintf(stderr, "key = %s %p %d\n", key, obj, obj && !NsfObjectIsClass(object)); */ if (object && !NsfObjectIsClass(object) && !(object->flags & NSF_DESTROY_CALLED)) { DispatchDestroyMethod(interp, object, 0); } } /*fprintf(stderr, "===CALL destroy on CLASSES\n");*/ for (hPtr = Tcl_FirstHashEntry(commandNameTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { char *key = Tcl_GetHashKey(commandNameTable, hPtr); NsfClass *cl = GetClassFromString(interp, key); if (cl && !(cl->object.flags & NSF_DESTROY_CALLED)) { DispatchDestroyMethod(interp, (NsfObject *)cl, 0); } } /* now, turn of filters, all destroy callbacks are done */ RUNTIME_STATE(interp)->doFilters = 0; #ifdef DO_CLEANUP FreeAllNsfObjectsAndClasses(interp, commandNameTable); # ifdef DO_FULL_CLEANUP DeleteProcsAndVars(interp); # endif #endif MEM_COUNT_FREE("Tcl_InitHashTable", commandNameTable); Tcl_DeleteHashTable(commandNameTable); /* now free all objects systems with their root classes */ for (osPtr = RUNTIME_STATE(interp)->objectSystems; osPtr; osPtr = nPtr) { nPtr = osPtr->nextPtr; ObjectSystemFree(interp, osPtr); } return TCL_OK; } /* *---------------------------------------------------------------------- * GetObjectSystem -- * * Return the object system for which the object was defined * * Results: * Object system pointer * * Side effects: * None. * *---------------------------------------------------------------------- */ static NsfObjectSystem * GetObjectSystem(NsfObject *object) { if (NsfObjectIsClass(object)) { return ((NsfClass *)object)->osPtr; } return object->cl->osPtr; } /* *---------------------------------------------------------------------- * CallDirectly -- * * Determine when it is possible/necessary to call a method * implementation directly or via method dispatch. * * Results: * 1 is returned when command should be invoked directly, 0 * otherwise. * * Side effects: * methodObjPtr is set with the Tcl_Obj of the name of the method, * if there is one defined. * *---------------------------------------------------------------------- */ static int CallDirectly(Tcl_Interp *interp, NsfObject *object, int methodIdx, Tcl_Obj **methodObjPtr) { /* We can/must call a C-implemented method directly, when a) the object system has no such appropriate method defined b) the script does not contain a method with the appropriate name, and c) filters are not active on the object */ NsfObjectSystem *osPtr = GetObjectSystem(object); Tcl_Obj *methodObj = osPtr->methods[methodIdx]; int callDirectly = 1; if (methodObj) { if ((osPtr->overloadedMethods & 1<definedMethods & 1<flags & NSF_FILTER_ORDER_VALID)) { FilterComputeDefined(interp, object); } /*fprintf(stderr, "CallDirectly object %s idx %s object flags %.6x %.6x \n", objectName(object), sytemMethodOpts[methodIdx]+1, (object->flags & NSF_FILTER_ORDER_DEFINED_AND_VALID), NSF_FILTER_ORDER_DEFINED_AND_VALID );*/ if ((object->flags & NSF_FILTER_ORDER_DEFINED_AND_VALID) == NSF_FILTER_ORDER_DEFINED_AND_VALID) { /*fprintf(stderr, "CallDirectly object %s idx %s has filter \n", objectName(object), sytemMethodOpts[methodIdx]+1);*/ callDirectly = 0; } } } #if 0 fprintf(stderr, "CallDirectly object %s idx %s returns %s => %d\n", objectName(object), sytemMethodOpts[methodIdx]+1, methodObj ? ObjStr(methodObj) : "(null)", callDirectly); #endif /* return the methodObj in every case */ *methodObjPtr = methodObj; return callDirectly; } /* *---------------------------------------------------------------------- * NsfMethodObj -- * * Return the methodObj for a given method index. * * Results: * Returns Tcl_Obj* or NULL * * Side effects: * None. * *---------------------------------------------------------------------- */ Tcl_Obj * NsfMethodObj(Tcl_Interp *interp, NsfObject *object, int methodIdx) { NsfObjectSystem *osPtr = GetObjectSystem(object); /* fprintf(stderr, "NsfMethodObj object %s os %p idx %d %s methodObj %p\n", objectName(object), osPtr, methodIdx, Nsf_SytemMethodOpts[methodIdx]+1, osPtr->methods[methodIdx]); */ return osPtr->methods[methodIdx]; } /* * conditional memory allocations of optional storage */ extern NsfObjectOpt * NsfRequireObjectOpt(NsfObject *object) { if (!object->opt) { object->opt = NEW(NsfObjectOpt); memset(object->opt, 0, sizeof(NsfObjectOpt)); } return object->opt; } extern NsfClassOpt * NsfRequireClassOpt(/*@notnull@*/ NsfClass *cl) { assert(cl); if (!cl->opt) { cl->opt = NEW(NsfClassOpt); memset(cl->opt, 0, sizeof(NsfClassOpt)); if (cl->object.flags & NSF_IS_CLASS) { cl->opt->id = cl->object.id; /* probably a temporary solution */ } } return cl->opt; } static void MakeObjNamespace(Tcl_Interp *interp, NsfObject *object) { #ifdef NAMESPACE_TRACE fprintf(stderr, "+++ MakeObjNamespace for %s\n", objectName(object)); #endif if (!object->nsPtr) { Tcl_Namespace *nsPtr; object->nsPtr = NSGetFreshNamespace(interp, (ClientData)object, objectName(object), 1); if (!object->nsPtr) Tcl_Panic("MakeObjNamespace: Unable to make namespace", NULL); nsPtr = object->nsPtr; /* * Copy all obj variables to the newly created namespace */ if (object->varTable) { Tcl_HashSearch search; Tcl_HashEntry *hPtr; TclVarHashTable *varTable = Tcl_Namespace_varTable(nsPtr); Tcl_HashTable *varHashTable = VarHashTable(varTable); Tcl_HashTable *objHashTable = VarHashTable(object->varTable); *varHashTable = *objHashTable; /* copy the table */ if (objHashTable->buckets == objHashTable->staticBuckets) { varHashTable->buckets = varHashTable->staticBuckets; } for (hPtr = Tcl_FirstHashEntry(varHashTable, &search); hPtr; hPtr = Tcl_NextHashEntry(&search)) { hPtr->tablePtr = varHashTable; } CallStackReplaceVarTableReferences(interp, object->varTable, (TclVarHashTable *)varHashTable); ckfree((char *) object->varTable); object->varTable = NULL; } } } static Tcl_Var CompiledLocalsLookup(CallFrame *varFramePtr, CONST char *varName) { int i, localCt = varFramePtr->numCompiledLocals; Tcl_Obj **objPtrPtr = &varFramePtr->localCachePtr->varName0; /*fprintf(stderr, ".. search #local vars %d\n", localCt);*/ for (i=0 ; icompiledLocals[i]; } } } return NULL; } static int NsColonVarResolver(Tcl_Interp *interp, CONST char *varName, Tcl_Namespace *nsPtr, int flags, Tcl_Var *varPtr) { Tcl_CallFrame *varFramePtr; TclVarHashTable *varTablePtr; NsfObject *object; int new, frameFlags; char firstChar, secondChar; Tcl_Obj *key; Var *newVar; #if defined (VAR_RESOLVER_TRACE) fprintf(stderr, "NsColonVarResolver '%s' flags %.6x\n", varName, flags); #endif /* Case 1: The variable is to be resolved in global scope, proceed in * resolver chain (i.e. return TCL_CONTINUE) */ if (flags & TCL_GLOBAL_ONLY) { /*fprintf(stderr, "global-scoped lookup for var '%s' in NS '%s'\n", varName, nsPtr->fullName);*/ return TCL_CONTINUE; } /* Case 2: The lookup happens in a proc frame (lookup in compiled * locals and hash table vars). We are not interested to handle * these cases here, so proceed in resolver chain. */ varFramePtr = (Tcl_CallFrame *)Tcl_Interp_varFramePtr(interp); assert(varFramePtr); frameFlags = Tcl_CallFrame_isProcCallFrame(varFramePtr); #if defined (VAR_RESOLVER_TRACE) fprintf(stderr, "NsColonVarResolver '%s' frame flags %.6x\n", varName, Tcl_CallFrame_isProcCallFrame(varFramePtr)); #endif if (frameFlags & FRAME_IS_PROC) { #if defined (VAR_RESOLVER_TRACE) fprintf(stderr, "...... forwarding to next resolver\n"); #endif /*fprintf(stderr, "proc-scoped var '%s' assumed, frame %p flags %.6x\n", name, varFramePtr, Tcl_CallFrame_isProcCallFrame(varFramePtr));*/ return TCL_CONTINUE; } firstChar = *varName; secondChar = *(varName+1); if (frameFlags & (FRAME_IS_NSF_CMETHOD|FRAME_IS_NSF_OBJECT)) { /* Case 3: we are in an Next Scripting frame */ if (firstChar == ':') { if (secondChar != ':') { /* * Case 3a: The variable name starts with a single ":". Skip * the char, but stay in the resolver. */ varName ++; } else { /* Case 3b: Names starting with "::" are not for us */ return TCL_CONTINUE; } } else if (NSTail(varName) != varName) { /* Case 3c: Names containing "::" are not for us */ return TCL_CONTINUE; } object = (frameFlags & FRAME_IS_NSF_CMETHOD) ? ((NsfCallStackContent *)Tcl_CallFrame_clientData(varFramePtr))->self : (NsfObject *)Tcl_CallFrame_clientData(varFramePtr); } else { /* * Case 4: we are not in an Next Scripting frame, so proceed with a * TCL_CONTINUE. */ return TCL_CONTINUE; } /* We have an object and create the variable if not found */ assert(object); varTablePtr = object->nsPtr ? Tcl_Namespace_varTable(object->nsPtr) : object->varTable; assert(varTablePtr); /* * Does the variable exist in the object's namespace? */ key = Tcl_NewStringObj(varName, -1); INCR_REF_COUNT(key); *varPtr = (Tcl_Var)VarHashCreateVar(varTablePtr, key, NULL); #if defined (VAR_RESOLVER_TRACE) fprintf(stderr, "...... lookup of '%s' for object '%s' returns %p\n", varName, objectName(object), *varPtr); #endif if (*varPtr == NULL) { /* * We failed to find the variable so far, therefore we create it * in this var table. Note that in several cases above, * TCL_CONTINUE takes care for variable creation. */ newVar = VarHashCreateVar(varTablePtr, key, &new); *varPtr = (Tcl_Var)newVar; } DECR_REF_COUNT(key); return *varPtr ? TCL_OK : TCL_ERROR; } /********************************************************* * * Begin of compiled var resolver * *********************************************************/ #define FOR_COLON_RESOLVER(ptr) (*(ptr) == ':' && *(ptr+1) != ':') typedef struct nsfResolvedVarInfo { Tcl_ResolvedVarInfo vInfo; /* This must be the first element. */ NsfObject *lastObject; Tcl_Var var; Tcl_Obj *nameObj; } nsfResolvedVarInfo; /* *---------------------------------------------------------------------- * HashVarFree -- * * Free hashed variables based on refcount. * * Results: * None. * * Side effects: * Changed refCount or freed variable. * *---------------------------------------------------------------------- */ static void HashVarFree(Tcl_Var var) { if (VarHashRefCount(var) < 2) { /*fprintf(stderr,"#### free %p\n", var);*/ ckfree((char *) var); } else { VarHashRefCount(var)--; } } /* *---------------------------------------------------------------------- * CompiledColonVarFetch -- * * Fetch value of a a compiled Next Scripting instance variable at runtime. * * Results: * Tcl_Var containing value or NULL. * * Side effects: * Updates of Variable structure cache in necessary. * *---------------------------------------------------------------------- */ static Tcl_Var CompiledColonVarFetch(Tcl_Interp *interp, Tcl_ResolvedVarInfo *vinfoPtr) { nsfResolvedVarInfo *resVarInfo = (nsfResolvedVarInfo *)vinfoPtr; NsfCallStackContent *cscPtr = CallStackGetFrame(interp, NULL); NsfObject *object = cscPtr ? cscPtr->self : NULL; TclVarHashTable *varTablePtr; Tcl_Var var = resVarInfo->var; int new, flags = var ? ((Var*)var)->flags : 0; #if defined(VAR_RESOLVER_TRACE) fprintf(stderr,"CompiledColonVarFetch var '%s' var %p flags = %.4x dead? %.4x\n", ObjStr(resVarInfo->nameObj), var, flags, flags&VAR_DEAD_HASH); #endif /* * We cache lookups based on nsf objects; we have to care about * cases, where the instance variables are in some delete states. * */ if (object == resVarInfo->lastObject && ((flags & VAR_DEAD_HASH)) == 0) { /* * The variable is valid. */ #if defined(VAR_RESOLVER_TRACE) fprintf(stderr, ".... cached var '%s' var %p flags = %.4x\n", ObjStr(resVarInfo->nameObj), var, flags); #endif return var; } if (var) { /* * The variable is not valid anymore. Clean it up. */ HashVarFree(var); } varTablePtr = object->nsPtr ? Tcl_Namespace_varTable(object->nsPtr) : object->varTable; assert(varTablePtr); resVarInfo->lastObject = object; resVarInfo->var = var = (Tcl_Var) VarHashCreateVar(varTablePtr, resVarInfo->nameObj, &new); /* * Increment the reference counter to avoid ckfree() of the variable * in Tcl's FreeVarEntry(); for cleanup, we provide our own * HashVarFree(); */ VarHashRefCount(var)++; #if defined(VAR_RESOLVER_TRACE) { Var *v = (Var*)(resVarInfo->var); fprintf(stderr, ".... looked up var %s var %p flags = %.6x\n", ObjStr(resVarInfo->nameObj), v, v->flags); } #endif return var; } /* *---------------------------------------------------------------------- * CompiledColonVarFree -- * * DeleteProc of the compiled variable handler. * * Results: * None. * * Side effects: * Free compiled variable structure and variable. * *---------------------------------------------------------------------- */ void CompiledColonVarFree(Tcl_ResolvedVarInfo *vinfoPtr) { nsfResolvedVarInfo *resVarInfo = (nsfResolvedVarInfo *)vinfoPtr; DECR_REF_COUNT(resVarInfo->nameObj); if (resVarInfo->var) {HashVarFree(resVarInfo->var);} ckfree((char *) vinfoPtr); } /* *---------------------------------------------------------------------- * InterpCompiledColonVarResolver -- * * Register for prefixed variables our own compiled var handler. * * Results: * TCL_OK or TCL_CONTINUE (based on Tcl's var resolver protocol) * * Side effects: * Registered var handler or none. * *---------------------------------------------------------------------- */ static int InterpCompiledColonVarResolver(Tcl_Interp *interp, CONST84 char *name, int length, Tcl_Namespace *context, Tcl_ResolvedVarInfo **rPtr) { /* * The variable handler is registered, when we have an active Next Scripting * object and the variable starts with the appropriate prefix. Note * that getting the "self" object is a weak protection against * handling of wrong vars */ NsfObject *object = GetSelfObj(interp); #if defined(VAR_RESOLVER_TRACE) fprintf(stderr, "compiled var resolver for %s, obj %p\n", name, object); #endif if (object && FOR_COLON_RESOLVER(name)) { nsfResolvedVarInfo *vInfoPtr = (nsfResolvedVarInfo *) ckalloc(sizeof(nsfResolvedVarInfo)); vInfoPtr->vInfo.fetchProc = CompiledColonVarFetch; vInfoPtr->vInfo.deleteProc = CompiledColonVarFree; /* if NULL, tcl does a ckfree on proc clean up */ vInfoPtr->lastObject = NULL; vInfoPtr->var = NULL; vInfoPtr->nameObj = Tcl_NewStringObj(name+1, length-1); INCR_REF_COUNT(vInfoPtr->nameObj); *rPtr = (Tcl_ResolvedVarInfo *)vInfoPtr; return TCL_OK; } return TCL_CONTINUE; } /* *---------------------------------------------------------------------- * InterpColonVarResolver -- * * Resolve varnames as instance variables. These might be compiled * locals or variables to be created (e.g. during an eval) in the * objects vartables. If the command starts with the Next Scripting * specific prefix and we are on an Next Scripting stack frame, treat * command as instance varname. * * Results: * TCL_OK or TCL_CONTINUE (based on Tcl's var resolver protocol) * * Side effects: * If successful, return varPtr, pointing to instance variable. * *---------------------------------------------------------------------- */ static int InterpColonVarResolver(Tcl_Interp *interp, CONST char *varName, Tcl_Namespace *nsPtr, int flags, Tcl_Var *varPtr) { int new, frameFlags; CallFrame *varFramePtr; TclVarHashTable *varTablePtr; NsfObject *object; Tcl_Obj *keyObj; Tcl_Var var; if (!FOR_COLON_RESOLVER(varName) || (flags & TCL_GLOBAL_ONLY)) { /* ordinary names and global lookups are not for us */ #if defined(VAR_RESOLVER_TRACE) fprintf(stderr, "InterpColonVarResolver '%s' flags %.6x not for us nsPtr %p\n", varName, flags, nsPtr); #endif return TCL_CONTINUE; } varFramePtr = Tcl_Interp_varFramePtr(interp); frameFlags = Tcl_CallFrame_isProcCallFrame(varFramePtr); #if defined(VAR_RESOLVER_TRACE) fprintf(stderr, "InterpColonVarResolver called var '%s' flags %.4x frame flags %.6x\n", varName, flags, frameFlags); #endif varName ++; if (frameFlags & FRAME_IS_NSF_METHOD) { if ((*varPtr = CompiledLocalsLookup(varFramePtr, varName))) { #if defined(VAR_RESOLVER_TRACE) fprintf(stderr, ".... found local %s\n", varName); #endif return TCL_OK; } object = ((NsfCallStackContent *)varFramePtr->clientData)->self; } else if (frameFlags & FRAME_IS_NSF_CMETHOD) { object = ((NsfCallStackContent *)varFramePtr->clientData)->self; } else if (frameFlags & FRAME_IS_NSF_OBJECT) { object = (NsfObject *)(varFramePtr->clientData); } else { #if defined(VAR_RESOLVER_TRACE) fprintf(stderr, ".... not found %s\n", varName); #endif return TCL_CONTINUE; } /* We have an object and create the variable if not found */ assert(object); varTablePtr = object->nsPtr ? Tcl_Namespace_varTable(object->nsPtr) : object->varTable; assert(varTablePtr); /*fprintf(stderr, "Object Var Resolver, name=%s, obj %p, nsPtr %p, varTable %p\n", varName, object, object->nsPtr, varTablePtr);*/ keyObj = Tcl_NewStringObj(varName, -1); INCR_REF_COUNT(keyObj); var = (Tcl_Var)VarHashCreateVar(varTablePtr, keyObj, NULL); if (var) { #if defined(VAR_RESOLVER_TRACE) fprintf(stderr, ".... found in hashtable %s %p\n", varName, var); #endif } else { /* We failed to find the variable, therefore we create it new */ var = (Tcl_Var)VarHashCreateVar(varTablePtr, keyObj, &new); #if defined(VAR_RESOLVER_TRACE) fprintf(stderr, ".... var %p %s created in hashtable %p\n", var, varName, varTablePtr); #endif } *varPtr = var; DECR_REF_COUNT(keyObj); return TCL_OK; } /********************************************************* * * End of var resolvers * *********************************************************/ /********************************************************* * * Begin of cmd resolver * *********************************************************/ /* *---------------------------------------------------------------------- * InterpColonCmdResolver -- * * Resolve command names. If the command starts with the Next * Scripting specific prefix and we are on an Next Scripting stack * frame, treat command as OO method. * * Results: * TCL_OK or TCL_CONTINUE (based on Tcl's command resolver protocol) * * Side effects: * If successful, return cmdPtr, pointing to method. * *---------------------------------------------------------------------- */ static int InterpColonCmdResolver(Tcl_Interp *interp, CONST char *cmdName, Tcl_Namespace *nsPtr, int flags, Tcl_Command *cmdPtr) { CallFrame *varFramePtr; int frameFlags; if (!FOR_COLON_RESOLVER(cmdName) || flags & TCL_GLOBAL_ONLY) { /* ordinary names and global lookups are not for us */ return TCL_CONTINUE; } varFramePtr = Tcl_Interp_varFramePtr(interp); frameFlags = Tcl_CallFrame_isProcCallFrame(varFramePtr); /* skip over a nonproc frame, in case Tcl stacks it */ if (frameFlags == 0 && Tcl_CallFrame_callerPtr(varFramePtr)) { varFramePtr = (CallFrame *)Tcl_CallFrame_callerPtr(varFramePtr); frameFlags = Tcl_CallFrame_isProcCallFrame(varFramePtr); #if defined(CMD_RESOLVER_TRACE) fprintf(stderr, "InterpColonCmdResolver uses parent frame\n"); #endif } #if defined(CMD_RESOLVER_TRACE) fprintf(stderr, "InterpColonCmdResolver cmdName %s flags %.6x, frame flags %.6x\n",cmdName, flags, Tcl_CallFrame_isProcCallFrame(varFramePtr)); #endif if (frameFlags & (FRAME_IS_NSF_METHOD|FRAME_IS_NSF_OBJECT|FRAME_IS_NSF_CMETHOD )) { #if defined(CMD_RESOLVER_TRACE) fprintf(stderr, " ... call colonCmd for %s\n", cmdName); #endif /* * We have a cmd starting with ':', we are in an nsf frame, so * forward to the colonCmd. */ *cmdPtr = RUNTIME_STATE(interp)->colonCmd; return TCL_OK; } #if defined(CMD_RESOLVER_TRACE) fprintf(stderr, " ... not found %s\n", cmdName); tcl85showStack(interp); #endif return TCL_CONTINUE; } /********************************************************* * * End of cmd resolver * *********************************************************/ static Tcl_Namespace * RequireObjNamespace(Tcl_Interp *interp, NsfObject *object) { if (!object->nsPtr) { MakeObjNamespace(interp, object); } /* This puts a per-object namespace resolver into position upon * acquiring the namespace. Works for object-scoped commands/procs * and object-only ones (set, unset, ...) */ Tcl_SetNamespaceResolvers(object->nsPtr, /*(Tcl_ResolveCmdProc*)NsColonCmdResolver*/ NULL, NsColonVarResolver, /*(Tcl_ResolveCompiledVarProc*)NsCompiledColonVarResolver*/NULL); return object->nsPtr; } extern void NsfRequireObjNamespace(Tcl_Interp *interp, Nsf_Object *object) { RequireObjNamespace(interp, (NsfObject*) object); } /* * Namespace related commands */ static int NSDeleteCmd(Tcl_Interp *interp, Tcl_Namespace *nsPtr, CONST char *name) { /* a simple deletion would delete a global command with the same name, if the command is not existing, so we use the CmdToken */ Tcl_Command token; assert(nsPtr); if ((token = FindMethod(nsPtr, name))) { return Tcl_DeleteCommandFromToken(interp, token); } return -1; } static void NSDeleteChildren(Tcl_Interp *interp, Tcl_Namespace *nsPtr) { Tcl_HashTable *cmdTable = Tcl_Namespace_cmdTable(nsPtr); Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; #ifdef OBJDELETION_TRACE fprintf(stderr, "NSDeleteChildren %p %s\n", nsPtr, nsPtr->fullName); #endif Tcl_ForgetImport(interp, nsPtr, "*"); /* don't destroy namespace imported objects */ for (hPtr = Tcl_FirstHashEntry(cmdTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { Tcl_Command cmd = (Tcl_Command)Tcl_GetHashValue(hPtr); if (!Tcl_Command_cmdEpoch(cmd)) { NsfObject *object = NsfGetObjectFromCmdPtr(cmd); /*fprintf(stderr, "... check %p %s\n", object, object ? objectName(object) : "(null)");*/ if (object) { /*fprintf(stderr, " ... child %s %p -- %s\n", oname, object, object ? objectName(object):"(null)");*/ /*fprintf(stderr, " ... obj=%s flags %.4x\n", objectName(object), object->flags);*/ /* in the exit handler physical destroy --> directly call destroy */ if (RUNTIME_STATE(interp)->exitHandlerDestroyRound == NSF_EXITHANDLER_ON_PHYSICAL_DESTROY) { PrimitiveDestroy((ClientData) object); } else { if (object->teardown && !(object->flags & NSF_DESTROY_CALLED)) { /*fprintf(stderr, " ... call destroy obj=%s flags %.4x\n", objectName(object), object->flags);*/ if (DispatchDestroyMethod(interp, object, 0) != TCL_OK) { /* destroy method failed, but we have to remove the command anyway. */ if (object->teardown) { CallStackDestroyObject(interp, object); } } } } } } } } /* * ensure that a variable exists on object varTable or nsPtr->varTable, * if necessary create it. Return Var* if successful, otherwise 0 */ static Var * NSRequireVariableOnObj(Tcl_Interp *interp, NsfObject *object, CONST char *name, int flgs) { Tcl_CallFrame frame, *framePtr = &frame; Var *varPtr, *arrayPtr; Nsf_PushFrameObj(interp, object, framePtr); varPtr = TclLookupVar(interp, name, 0, flgs, "obj vwait", /*createPart1*/ 1, /*createPart2*/ 0, &arrayPtr); Nsf_PopFrameObj(interp, framePtr); return varPtr; } static int Nsf_DeleteCommandFromToken(Tcl_Interp *interp, Tcl_Command cmd) { CallStackClearCmdReferences(interp, cmd); return Tcl_DeleteCommandFromToken(interp, cmd); } /* * delete all vars & procs in a namespace */ static void NSCleanupNamespace(Tcl_Interp *interp, Tcl_Namespace *ns) { TclVarHashTable *varTable = Tcl_Namespace_varTable(ns); Tcl_HashTable *cmdTable = Tcl_Namespace_cmdTable(ns); Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; #ifdef OBJDELETION_TRACE fprintf(stderr, "NSCleanupNamespace %p\n", ns); fprintf(stderr, "NSCleanupNamespace %p %.6x varTable %p\n", ns, ((Namespace *)ns)->flags, varTable); #endif /* * Delete all variables and initialize var table again * (DeleteVars frees the vartable) */ TclDeleteVars((Interp *)interp, varTable); TclInitVarHashTable(varTable, (Namespace *)ns); /* * Delete all user-defined procs in the namespace */ for (hPtr = Tcl_FirstHashEntry(cmdTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { Tcl_Command cmd = (Tcl_Command) Tcl_GetHashValue(hPtr); Tcl_ObjCmdProc *proc = Tcl_Command_objProc(cmd); if (proc == NsfObjDispatch) { /* * Sub-objects should not be deleted here to preseve children * deletion order. Just delete aliases. */ AliasDeleteObjectReference(interp, cmd); continue; } /* fprintf(stderr, "NSCleanupNamespace calls DeleteCommandFromToken for %p flags %.6x invokeObj %p obj %p\n", cmd, ((Command *)cmd)->flags, invokeObj,object); fprintf(stderr, " cmd = %s\n", Tcl_GetCommandName(interp,cmd)); fprintf(stderr, " nsPtr = %p\n", ((Command *)cmd)->nsPtr); fprintf(stderr, " flags %.6x\n", ((Namespace *)((Command *)cmd)->nsPtr)->flags);*/ Nsf_DeleteCommandFromToken(interp, cmd); } } static void NSNamespaceDeleteProc(ClientData clientData) { /* dummy for ns identification by pointer comparison */ NsfObject *object = (NsfObject*) clientData; /*fprintf(stderr, "namespacedeleteproc obj=%p ns=%p\n", clientData,object ? object->nsPtr : NULL);*/ if (object) { object->nsPtr = NULL; } } void Nsf_DeleteNamespace(Tcl_Interp *interp, Tcl_Namespace *nsPtr) { int activationCount = 0; Tcl_CallFrame *f = (Tcl_CallFrame *)Tcl_Interp_framePtr(interp); /*fprintf(stderr, "Nsf_DeleteNamespace %p ", nsPtr);*/ while (f) { if (f->nsPtr == nsPtr) activationCount++; f = Tcl_CallFrame_callerPtr(f); } /* todo remove debug line */ if (Tcl_Namespace_activationCount(nsPtr) != activationCount) { fprintf(stderr, "WE HAVE TO FIX ACTIVATIONCOUNT\n"); Tcl_Namespace_activationCount(nsPtr) = activationCount; } /*fprintf(stderr, "to %d. \n", ((Namespace *)nsPtr)->activationCount);*/ MEM_COUNT_FREE("TclNamespace", nsPtr); if (Tcl_Namespace_deleteProc(nsPtr)) { /*fprintf(stderr, "calling deteteNamespace %s\n", nsPtr->fullName);*/ Tcl_DeleteNamespace(nsPtr); } } static Tcl_Namespace* NSGetFreshNamespace(Tcl_Interp *interp, ClientData clientData, CONST char *name, int create) { Tcl_Namespace *nsPtr = Tcl_FindNamespace(interp, name, NULL, 0); if (nsPtr) { if (nsPtr->deleteProc || nsPtr->clientData) { Tcl_Panic("Namespace '%s' exists already with delProc %p and clientData %p; Can only convert a plain Tcl namespace into an nsf namespace, my delete Proc %p", name, nsPtr->deleteProc, nsPtr->clientData, NSNamespaceDeleteProc); } nsPtr->clientData = clientData; nsPtr->deleteProc = (Tcl_NamespaceDeleteProc *)NSNamespaceDeleteProc; } else if (create) { nsPtr = Tcl_CreateNamespace(interp, name, clientData, (Tcl_NamespaceDeleteProc *)NSNamespaceDeleteProc); } MEM_COUNT_ALLOC("TclNamespace", nsPtr); return nsPtr; } /* * check colons for illegal object/class names */ NSF_INLINE static int NSCheckColons(CONST char *name, size_t l) { register CONST char *n = name; if (*n == '\0') return 0; /* empty name */ if (l == 0) l = strlen(name); if (*(n+l-1) == ':') return 0; /* name ends with : */ if (*n == ':' && *(n+1) != ':') return 0; /* name begins with single : */ for (; *n != '\0'; n++) { if (*n == ':' && *(n+1) == ':' && *(n+2) == ':') return 0; /* more than 2 colons in series in a name */ } return 1; } /* * check for parent namespace existance (used before commands are created) */ NSF_INLINE static int NSCheckForParent(Tcl_Interp *interp, CONST char *name, size_t l, NsfClass *cl) { register CONST char *n = name+l; int rc = 1; /*search for last '::'*/ while ((*n != ':' || *(n-1) != ':') && n-1 > name) {n--; } if (*n == ':' && n > name && *(n-1) == ':') {n--;} if ((n-name)>0) { Tcl_DString parentNSName, *dsp = &parentNSName; char *parentName; DSTRING_INIT(dsp); Tcl_DStringAppend(dsp, name, (n-name)); parentName = Tcl_DStringValue(dsp); if (Tcl_FindNamespace(interp, parentName, (Tcl_Namespace *) NULL, TCL_GLOBAL_ONLY) == NULL) { NsfObject *parentObj = (NsfObject*) GetObjectFromString(interp, parentName); if (parentObj) { /* this is for classes */ RequireObjNamespace(interp, parentObj); } else { NsfClass *defaultSuperClass = DefaultSuperClass(interp, cl, cl->object.cl, 0); Tcl_Obj *methodObj = NsfMethodObj(interp, &defaultSuperClass->object, NSF_c_requireobject_idx); if (methodObj) { /* call requireObject and try again */ Tcl_Obj *ov[3]; int result; ov[0] = defaultSuperClass->object.cmdName; ov[1] = methodObj; ov[2] = Tcl_NewStringObj(parentName, -1); INCR_REF_COUNT(ov[2]); /*fprintf(stderr, "+++ parent... calling __unknown for %s\n", ObjStr(ov[2]));*/ result = Tcl_EvalObjv(interp, 3, ov, 0); if (result == TCL_OK) { NsfObject *parentObj = (NsfObject*) GetObjectFromString(interp, parentName); if (parentObj) { RequireObjNamespace(interp, parentObj); } rc = (Tcl_FindNamespace(interp, parentName, (Tcl_Namespace *) NULL, TCL_GLOBAL_ONLY) != NULL); } else { rc = 0; } DECR_REF_COUNT(ov[2]); } } } else { NsfObject *parentObj = (NsfObject*) GetObjectFromString(interp, parentName); if (parentObj) { RequireObjNamespace(interp, parentObj); } } DSTRING_FREE(dsp); } return rc; } /* * Find the "real" command belonging eg. to an Next Scripting class or object. * Do not return cmds produced by Tcl_Import, but the "real" cmd * to which they point. */ NSF_INLINE static Tcl_Command NSFindCommand(Tcl_Interp *interp, CONST char *name, Tcl_Namespace *ns) { Tcl_Command cmd; if ((cmd = Tcl_FindCommand(interp, name, ns, 0))) { Tcl_Command importedCmd; if ((importedCmd = TclGetOriginalCommand(cmd))) cmd = importedCmd; } return cmd; } /* * C interface routines for manipulating objects and classes */ extern Nsf_Object* NsfGetObject(Tcl_Interp *interp, CONST char *name) { return (Nsf_Object*) GetObjectFromString(interp, name); } /* * Find an object using a char *name */ static NsfObject * GetObjectFromString(Tcl_Interp *interp, CONST char *name) { register Tcl_Command cmd; assert(name); /*fprintf(stderr, "GetObjectFromString name = '%s'\n", name);*/ cmd = NSFindCommand(interp, name, NULL); /*if (cmd) { fprintf(stderr, "+++ NsfGetObject from %s -> objProc=%p, dispatch=%p OK %d\n", name, Tcl_Command_objProc(cmd), NsfObjDispatch, Tcl_Command_objProc(cmd) == NsfObjDispatch); }*/ if (cmd && Tcl_Command_objProc(cmd) == NsfObjDispatch) { /*fprintf(stderr, "GetObjectFromString cd %p\n", Tcl_Command_objClientData(cmd));*/ return (NsfObject*)Tcl_Command_objClientData(cmd); } return 0; } /* * Find a class using a char *name */ extern Nsf_Class * NsfGetClass(Tcl_Interp *interp, CONST char *name) { return (Nsf_Class *)GetClassFromString(interp, name); } static NsfClass * GetClassFromString(Tcl_Interp *interp, CONST char *name) { NsfObject *object = GetObjectFromString(interp, name); return (object && NsfObjectIsClass(object)) ? (NsfClass*)object : NULL; } static int CanRedefineCmd(Tcl_Interp *interp, Tcl_Namespace *nsPtr, NsfObject *object, CONST char *methodName) { int result, ok; Tcl_Command cmd = FindMethod(nsPtr, methodName); ok = cmd ? (Tcl_Command_flags(cmd) & NSF_CMD_REDEFINE_PROTECTED_METHOD) == 0 : 1; if (ok) { result = TCL_OK; } else { result = NsfVarErrMsg(interp, "Method '", methodName, "' of ", objectName(object), " can not be overwritten. Derive e.g. a sub-class!", (char *) NULL); } ObjectSystemsCheckSystemMethod(interp, methodName, GetObjectSystem(object)); return result; } int NsfAddObjectMethod(Tcl_Interp *interp, Nsf_Object *object1, CONST char *methodName, Tcl_ObjCmdProc *proc, ClientData clientData, Tcl_CmdDeleteProc *dp, int flags) { NsfObject *object = (NsfObject *)object1; Tcl_DString newCmdName, *dsPtr = &newCmdName; Tcl_Namespace *ns = RequireObjNamespace(interp, object); Tcl_Command newCmd; int result; /* Check, if we are allowed to redefine the method */ result = CanRedefineCmd(interp, object->nsPtr, object, (char*)methodName); if (result != TCL_OK) { return result; } /* delete an alias definition, if it exists */ AliasDelete(interp, object->cmdName, methodName, 1); ALLOC_NAME_NS(dsPtr, ns->fullName, methodName); newCmd = Tcl_CreateObjCommand(interp, Tcl_DStringValue(dsPtr), proc, clientData, dp); if (flags) { ((Command *) newCmd)->flags |= flags; } DSTRING_FREE(dsPtr); return TCL_OK; } int NsfAddClassMethod(Tcl_Interp *interp, Nsf_Class *class, CONST char *methodName, Tcl_ObjCmdProc *proc, ClientData clientData, Tcl_CmdDeleteProc *dp, int flags) { NsfClass *cl = (NsfClass *)class; Tcl_DString newCmdName, *dsPtr = &newCmdName; Tcl_Command newCmd; int result; /* Check, if we are allowed to redefine the method */ result = CanRedefineCmd(interp, cl->nsPtr, &cl->object, (char*)methodName); if (result != TCL_OK) { return result; } /* delete an alias definition, if it exists */ AliasDelete(interp, class->object.cmdName, methodName, 0); ALLOC_NAME_NS(dsPtr, cl->nsPtr->fullName, methodName); newCmd = Tcl_CreateObjCommand(interp, Tcl_DStringValue(dsPtr), proc, clientData, dp); if (flags) { ((Command *) newCmd)->flags |= flags; } DSTRING_FREE(dsPtr); return TCL_OK; } /* * Generic Tcl_Obj List */ static void TclObjListFreeList(NsfTclObjList *list) { NsfTclObjList *del; while (list) { del = list; list = list->nextPtr; DECR_REF_COUNT(del->content); FREE(NsfTclObjList, del); } } static Tcl_Obj * TclObjListNewElement(NsfTclObjList **list, Tcl_Obj *ov) { NsfTclObjList *elt = NEW(NsfTclObjList); INCR_REF_COUNT(ov); elt->content = ov; elt->nextPtr = *list; *list = elt; return ov; } /* * Autonaming */ static Tcl_Obj * AutonameIncr(Tcl_Interp *interp, Tcl_Obj *nameObj, NsfObject *object, int instanceOpt, int resetOpt) { int valueLength, mustCopy = 1, format = 0; char *valueString, *c; Tcl_Obj *valueObj, *result = NULL, *savedResult = NULL; int flgs = TCL_LEAVE_ERR_MSG; Tcl_CallFrame frame, *framePtr = &frame; Nsf_PushFrameObj(interp, object, framePtr); if (object->nsPtr) flgs |= TCL_NAMESPACE_ONLY; valueObj = Tcl_ObjGetVar2(interp, NsfGlobalObjs[NSF_AUTONAMES], nameObj, flgs); if (valueObj) { long autoname_counter; /* should probably do an overflow check here */ Tcl_GetLongFromObj(interp, valueObj, &autoname_counter); autoname_counter++; if (Tcl_IsShared(valueObj)) { valueObj = Tcl_DuplicateObj(valueObj); } Tcl_SetLongObj(valueObj, autoname_counter); } Tcl_ObjSetVar2(interp, NsfGlobalObjs[NSF_AUTONAMES], nameObj, valueObj, flgs); if (resetOpt) { if (valueObj) { /* we have an entry */ Tcl_UnsetVar2(interp, NsfGlobalStrings[NSF_AUTONAMES], ObjStr(nameObj), flgs); } result = NsfGlobalObjs[NSF_EMPTY]; INCR_REF_COUNT(result); } else { if (valueObj == NULL) { valueObj = Tcl_ObjSetVar2(interp, NsfGlobalObjs[NSF_AUTONAMES], nameObj, NsfGlobalObjs[NSF_ONE], flgs); } if (instanceOpt) { char buffer[1], firstChar; CONST char *nextChars = ObjStr(nameObj); firstChar = *(nextChars ++); if (isupper((int)firstChar)) { buffer[0] = tolower((int)firstChar); result = Tcl_NewStringObj(buffer, 1); INCR_REF_COUNT(result); Tcl_AppendLimitedToObj(result, nextChars, -1, INT_MAX, NULL); mustCopy = 0; } } if (mustCopy) { result = Tcl_DuplicateObj(nameObj); INCR_REF_COUNT(result); /* fprintf(stderr, "*** copy %p %s = %p\n", name, ObjStr(name), result); */ } /* if we find a % in the autoname -> We use Tcl_FormatObjCmd to let the autoname string be formated, like Tcl "format" command, with the value. E.g.: autoname a%06d --> a000000, a000001, a000002, ... */ for (c = ObjStr(result); *c != '\0'; c++) { if (*c == '%') { if (*(c+1) != '%') { format = 1; break; } else { /* when we find a %% we format and then append autoname, e.g. autoname a%% --> a%1, a%2, ... */ c++; } } } if (format) { ALLOC_ON_STACK(Tcl_Obj*, 3, ov); savedResult = Tcl_GetObjResult(interp); INCR_REF_COUNT(savedResult); ov[1] = result; ov[2] = valueObj; if (NsfCallCommand(interp, NSF_FORMAT, 3, ov) != TCL_OK) { Nsf_PopFrameObj(interp, framePtr); DECR_REF_COUNT(savedResult); FREE_ON_STACK(Tcl_Obj*, ov); return 0; } DECR_REF_COUNT(result); result = Tcl_DuplicateObj(Tcl_GetObjResult(interp)); INCR_REF_COUNT(result); Tcl_SetObjResult(interp, savedResult); DECR_REF_COUNT(savedResult); FREE_ON_STACK(Tcl_Obj*, ov); } else { valueString = Tcl_GetStringFromObj(valueObj, &valueLength); Tcl_AppendLimitedToObj(result, valueString, valueLength, INT_MAX, NULL); /*fprintf(stderr, "+++ append to obj done\n");*/ } } Nsf_PopFrameObj(interp, framePtr); assert((resetOpt && result->refCount>=1) || (result->refCount == 1)); return result; } /* * Next Scripting CallStack */ static void CallStackRestoreSavedFrames(Tcl_Interp *interp, callFrameContext *ctx) { if (ctx->framesSaved) { Tcl_Interp_varFramePtr(interp) = (CallFrame *)ctx->varFramePtr; /*RUNTIME_STATE(interp)->varFramePtr = ctx->varFramePtr;*/ } } NSF_INLINE static void CallStackDoDestroy(Tcl_Interp *interp, NsfObject *object) { Tcl_Command oid; PRINTOBJ("CallStackDoDestroy", object); /* Don't do anything, if a recursive DURING_DELETE is for some * reason active. */ if (object->flags & NSF_DURING_DELETE) { return; } /*fprintf(stderr, "CallStackDoDestroy %p flags %.6x activation %d rc %d cmd %p \n", object, object->flags, object->activationCount, object->refCount, object->id);*/ object->flags |= NSF_DURING_DELETE; oid = object->id; /* oid might be freed already, we can't even use (((Command*)oid)->flags & CMD_IS_DELETED) */ if (object->teardown && oid) { /* PrimitiveDestroy() has to be before DeleteCommandFromToken(), otherwise e.g. unset traces on this object cannot be executed from Tcl. We make sure via refcounting that the object structure is kept until after DeleteCommandFromToken(). */ object->refCount ++; /*fprintf(stderr, "CallStackDoDestroy %p after refCount ++ %d teardown %p\n", object, object->refCount, object->teardown);*/ PrimitiveDestroy((ClientData) object); if (!(object->flags & NSF_TCL_DELETE) /*&& !(object->flags & NSF_CMD_NOT_FOUND)*/) { Tcl_Obj *savedObjResult = Tcl_GetObjResult(interp); INCR_REF_COUNT(savedObjResult); /*fprintf(stderr, " before DeleteCommandFromToken %p object flags %.6x\n", oid, object->flags);*/ /*fprintf(stderr, "cmd dealloc %p refcount %d dodestroy \n", oid, Tcl_Command_refCount(oid));*/ Tcl_DeleteCommandFromToken(interp, oid); /* this can change the result */ /*fprintf(stderr, " after DeleteCommandFromToken %p %.6x\n", oid, ((Command*)oid)->flags);*/ Tcl_SetObjResult(interp, savedObjResult); DECR_REF_COUNT(savedObjResult); } NsfCleanupObject(object); } } static void CallStackDestroyObject(Tcl_Interp *interp, NsfObject *object) { #ifdef OBJDELETION_TRACE fprintf(stderr, "CallStackDestroyObject %p %s activationcount %d flags %.6x\n", object, objectName(object), object->activationCount, object->flags); #endif if ((object->flags & NSF_DESTROY_CALLED) == 0) { int activationCount = object->activationCount; /* if the destroy method was not called yet, do it now */ #ifdef OBJDELETION_TRACE fprintf(stderr, " CallStackDestroyObject has to DispatchDestroyMethod %p activationCount %d\n", object, activationCount); #endif DispatchDestroyMethod(interp, object, 0); if (activationCount == 0) { /* We assume, the object is now freed. if the oobjectbj is already freed, we cannot access activation count, and we cannot call CallStackDoDestroy */ /*fprintf(stderr, " CallStackDestroyObject %p done\n", obj);*/ return; } } /* If the object is not referenced on the callstack anymore we have to destroy it directly, because CscFinish won't find the object destroy */ if (object->activationCount == 0) { CallStackDoDestroy(interp, object); } else { /* to prevail the deletion order call delete children now -> children destructors are called before parent's destructor */ if (object->teardown && object->nsPtr) { /*fprintf(stderr, " CallStackDestroyObject calls NSDeleteChildren\n");*/ NSDeleteChildren(interp, object->nsPtr); } } /*fprintf(stderr, " CallStackDestroyObject %p DONE\n", object);*/ } /* * cmd list handling */ /* * Cmd List Add/Remove ... returns the new element */ static NsfCmdList * CmdListAdd(NsfCmdList **cList, Tcl_Command c, NsfClass *clorobj, int noDuplicates) { NsfCmdList *l = *cList, *new; /* * check for duplicates, if necessary */ if (noDuplicates) { NsfCmdList *h = l, **end = NULL; while (h) { if (h->cmdPtr == c) return h; end = &(h->nextPtr); h = h->nextPtr; } if (end) { /* no duplicates, no need to search below, we are at the end of the list */ cList = end; l = NULL; } } /* * ok, we have no duplicates -> append "new" * to the end of the list */ new = NEW(NsfCmdList); new->cmdPtr = c; Tcl_Command_refCount(new->cmdPtr)++; MEM_COUNT_ALLOC("command refCount", new->cmdPtr); new->clientData = NULL; new->clorobj = clorobj; new->nextPtr = NULL; if (l) { while (l->nextPtr) l = l->nextPtr; l->nextPtr = new; } else *cList = new; return new; } static void CmdListReplaceCmd(NsfCmdList *replace, Tcl_Command cmd, NsfClass *clorobj) { Tcl_Command del = replace->cmdPtr; replace->cmdPtr = cmd; replace->clorobj = clorobj; Tcl_Command_refCount(cmd)++; MEM_COUNT_ALLOC("command refCount", cmd); TclCleanupCommand((Command *)del); MEM_COUNT_FREE("command refCount", cmd); } #if 0 /** for debug purposes only */ static void CmdListPrint(Tcl_Interp *interp, CONST char *title, NsfCmdList *cmdList) { if (cmdList) fprintf(stderr, title); while (cmdList) { fprintf(stderr, " CL=%p, cmdPtr=%p %s, clorobj %p, clientData=%p\n", cmdList, cmdList->cmdPtr, in ? Tcl_GetCommandName(interp, cmdList->cmdPtr) : "", cmdList->clorobj, cmdList->clientData); cmdList = cmdList->next; } } #endif /* * physically delete an entry 'del' */ static void CmdListDeleteCmdListEntry(NsfCmdList *del, NsfFreeCmdListClientData *freeFct) { if (freeFct) (*freeFct)(del); MEM_COUNT_FREE("command refCount", del->cmdPtr); TclCleanupCommand((Command *)del->cmdPtr); FREE(NsfCmdList, del); } /* * remove a command 'delCL' from a command list, but do not * free it ... returns the removed NsfCmdList* */ static NsfCmdList * CmdListRemoveFromList(NsfCmdList **cmdList, NsfCmdList *delCL) { register NsfCmdList *c = *cmdList, *del = NULL; if (c == NULL) return NULL; if (c == delCL) { *cmdList = c->nextPtr; del = c; } else { while (c->nextPtr && c->nextPtr != delCL) { c = c->nextPtr; } if (c->nextPtr == delCL) { del = delCL; c->nextPtr = delCL->nextPtr; } } return del; } /* * remove all command pointers from a list that have a bumped epoch */ static void CmdListRemoveEpoched(NsfCmdList **cmdList, NsfFreeCmdListClientData *freeFct) { NsfCmdList *f = *cmdList, *del; while (f) { if (Tcl_Command_cmdEpoch(f->cmdPtr)) { del = f; f = f->nextPtr; del = CmdListRemoveFromList(cmdList, del); CmdListDeleteCmdListEntry(del, freeFct); } else f = f->nextPtr; } } /* * delete all cmds with given context class object */ static void CmdListRemoveContextClassFromList(NsfCmdList **cmdList, NsfClass *clorobj, NsfFreeCmdListClientData *freeFct) { NsfCmdList *c, *del = NULL; /* CmdListRemoveEpoched(cmdList, freeFct); */ c = *cmdList; while (c && c->clorobj == clorobj) { del = c; *cmdList = c->nextPtr; CmdListDeleteCmdListEntry(del, freeFct); c = *cmdList; } while (c) { if (c->clorobj == clorobj) { del = c; c = *cmdList; while (c->nextPtr && c->nextPtr != del) c = c->nextPtr; if (c->nextPtr == del) c->nextPtr = del->nextPtr; CmdListDeleteCmdListEntry(del, freeFct); } c = c->nextPtr; } } /* * free the memory of a whole 'cmdList' */ static void CmdListRemoveList(NsfCmdList **cmdList, NsfFreeCmdListClientData *freeFct) { NsfCmdList *del; while (*cmdList) { del = *cmdList; *cmdList = (*cmdList)->nextPtr; CmdListDeleteCmdListEntry(del, freeFct); } } /* * simple list search proc to search a list of cmds * for a command ptr */ static NsfCmdList * CmdListFindCmdInList(Tcl_Command cmd, NsfCmdList *l) { register NsfCmdList *h; for (h = l; h; h = h->nextPtr) { if (h->cmdPtr == cmd) return h; } return 0; } /* * simple list search proc to search a list of cmds * for a simple Name */ static NsfCmdList * CmdListFindNameInList(Tcl_Interp *interp, CONST char *name, NsfCmdList *l) { register NsfCmdList *h; for (h = l; h; h = h->nextPtr) { CONST char *cmdName = Tcl_GetCommandName(interp, h->cmdPtr); if (cmdName[0] == name[0] && !strcmp(cmdName, name)) return h; } return 0; } /* * Assertions */ static NsfTclObjList * AssertionNewList(Tcl_Interp *interp, Tcl_Obj *aObj) { Tcl_Obj **ov; int oc; NsfTclObjList *last = NULL; if (Tcl_ListObjGetElements(interp, aObj, &oc, &ov) == TCL_OK) { if (oc > 0) { int i; for (i=oc-1; i>=0; i--) { TclObjListNewElement(&last, ov[i]); } } } return last; } static Tcl_Obj * AssertionList(Tcl_Interp *interp, NsfTclObjList *alist) { Tcl_Obj *listObj = Tcl_NewListObj(0, NULL); for (; alist; alist = alist->nextPtr) { Tcl_ListObjAppendElement(interp, listObj, alist->content); } return listObj; } /* append a string of pre and post assertions to a method body */ static void AssertionAppendPrePost(Tcl_Interp *interp, Tcl_DString *dsPtr, NsfProcAssertion *procs) { if (procs) { Tcl_Obj *preCondition = AssertionList(interp, procs->pre); Tcl_Obj *postCondition = AssertionList(interp, procs->post); INCR_REF_COUNT(preCondition); INCR_REF_COUNT(postCondition); Tcl_DStringAppendElement(dsPtr, "-precondition"); Tcl_DStringAppendElement(dsPtr, ObjStr(preCondition)); Tcl_DStringAppendElement(dsPtr, "-postcondition"); Tcl_DStringAppendElement(dsPtr, ObjStr(postCondition)); DECR_REF_COUNT(preCondition); DECR_REF_COUNT(postCondition); } } static int AssertionListCheckOption(Tcl_Interp *interp, NsfObject *object) { NsfObjectOpt *opt = object->opt; if (!opt) return TCL_OK; if (opt->checkoptions & CHECK_OBJINVAR) Tcl_AppendElement(interp, "object-invar"); if (opt->checkoptions & CHECK_CLINVAR) Tcl_AppendElement(interp, "class-invar"); if (opt->checkoptions & CHECK_PRE) Tcl_AppendElement(interp, "pre"); if (opt->checkoptions & CHECK_POST) Tcl_AppendElement(interp, "post"); return TCL_OK; } static NsfProcAssertion * AssertionFindProcs(NsfAssertionStore *aStore, CONST char *name) { Tcl_HashEntry *hPtr; if (aStore == NULL) return NULL; hPtr = Tcl_CreateHashEntry(&aStore->procs, name, NULL); if (hPtr == NULL) return NULL; return (NsfProcAssertion *) Tcl_GetHashValue(hPtr); } static void AssertionRemoveProc(NsfAssertionStore *aStore, CONST char *name) { Tcl_HashEntry *hPtr; if (aStore) { hPtr = Tcl_CreateHashEntry(&aStore->procs, name, NULL); if (hPtr) { NsfProcAssertion *procAss = (NsfProcAssertion *) Tcl_GetHashValue(hPtr); TclObjListFreeList(procAss->pre); TclObjListFreeList(procAss->post); FREE(NsfProcAssertion, procAss); Tcl_DeleteHashEntry(hPtr); } } } static void AssertionAddProc(Tcl_Interp *interp, CONST char *name, NsfAssertionStore *aStore, Tcl_Obj *pre, Tcl_Obj *post) { int nw = 0; Tcl_HashEntry *hPtr = NULL; NsfProcAssertion *procs = NEW(NsfProcAssertion); AssertionRemoveProc(aStore, name); procs->pre = AssertionNewList(interp, pre); procs->post = AssertionNewList(interp, post); hPtr = Tcl_CreateHashEntry(&aStore->procs, name, &nw); if (nw) Tcl_SetHashValue(hPtr, (ClientData)procs); } static NsfAssertionStore * AssertionCreateStore() { NsfAssertionStore *aStore = NEW(NsfAssertionStore); aStore->invariants = NULL; Tcl_InitHashTable(&aStore->procs, TCL_STRING_KEYS); MEM_COUNT_ALLOC("Tcl_InitHashTable", &aStore->procs); return aStore; } static void AssertionRemoveStore(NsfAssertionStore *aStore) { Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; if (aStore) { for (hPtr = Tcl_FirstHashEntry(&aStore->procs, &hSrch); hPtr; hPtr = Tcl_FirstHashEntry(&aStore->procs, &hSrch)) { /* * AssertionRemoveProc calls Tcl_DeleteHashEntry(hPtr), thus * we get the FirstHashEntry afterwards again to proceed */ AssertionRemoveProc(aStore, Tcl_GetHashKey(&aStore->procs, hPtr)); } Tcl_DeleteHashTable(&aStore->procs); MEM_COUNT_FREE("Tcl_InitHashTable", &aStore->procs); TclObjListFreeList(aStore->invariants); FREE(NsfAssertionStore, aStore); } } /* * check a given condition in the current callframe's scope * it's the responsiblity of the caller to push the intended callframe */ static int CheckConditionInScope(Tcl_Interp *interp, Tcl_Obj *condition) { int result, success; Tcl_Obj *ov[2] = {NULL, condition}; INCR_REF_COUNT(condition); result = Nsf_ExprObjCmd(NULL, interp, 2, ov); DECR_REF_COUNT(condition); if (result == TCL_OK) { result = Tcl_GetBooleanFromObj(interp, Tcl_GetObjResult(interp), &success); if (result == TCL_OK && success == 0) result = NSF_CHECK_FAILED; } return result; } static int AssertionCheckList(Tcl_Interp *interp, NsfObject *object, NsfTclObjList *alist, CONST char *methodName) { NsfTclObjList *checkFailed = NULL; Tcl_Obj *savedObjResult = Tcl_GetObjResult(interp); int savedCheckoptions, acResult = TCL_OK; /* * no obj->opt -> checkoption == CHECK_NONE */ if (!object->opt) return TCL_OK; /* we do not check assertion modifying methods, otherwise we can not react in catch on a runtime assertion check failure */ #if 1 /* TODO: the following check operations is XOTcl1 legacy and is not generic. it should be replaced by another methodproperty. Most of the is*String() definition are then obsolete and should be deleted from nsfInt.h as well. */ if (isCheckString(methodName)) { return TCL_OK; } #endif INCR_REF_COUNT(savedObjResult); Tcl_ResetResult(interp); while (alist) { /* Eval instead of IfObjCmd => the substitutions in the conditions will be done by Tcl */ CONST char *assStr = ObjStr(alist->content), *c = assStr; int comment = 0; for (; c && *c != '\0'; c++) { if (*c == '#') { comment = 1; break; } } if (!comment) { Tcl_CallFrame frame, *framePtr = &frame; Nsf_PushFrameObj(interp, object, framePtr); /* don't check assertion during assertion check */ savedCheckoptions = object->opt->checkoptions; object->opt->checkoptions = CHECK_NONE; /* fprintf(stderr, "Checking Assertion %s ", assStr); */ /* * now check the assertion in the pushed callframe's scope */ acResult = CheckConditionInScope(interp, alist->content); if (acResult != TCL_OK) checkFailed = alist; object->opt->checkoptions = savedCheckoptions; /* fprintf(stderr, "...%s\n", checkFailed ? "failed" : "ok"); */ Nsf_PopFrameObj(interp, framePtr); } if (checkFailed) break; alist = alist->nextPtr; } if (checkFailed) { DECR_REF_COUNT(savedObjResult); if (acResult == TCL_ERROR) { Tcl_Obj *sr = Tcl_GetObjResult(interp); INCR_REF_COUNT(sr); NsfVarErrMsg(interp, "Error in Assertion: {", ObjStr(checkFailed->content), "} in proc '", methodName, "'\n\n", ObjStr(sr), (char *) NULL); DECR_REF_COUNT(sr); return TCL_ERROR; } return NsfVarErrMsg(interp, "Assertion failed check: {", ObjStr(checkFailed->content), "} in proc '", methodName, "'", (char *) NULL); } Tcl_SetObjResult(interp, savedObjResult); DECR_REF_COUNT(savedObjResult); return TCL_OK; } static int AssertionCheckInvars(Tcl_Interp *interp, NsfObject *object, CONST char *methodName, CheckOptions checkoptions) { int result = TCL_OK; if (checkoptions & CHECK_OBJINVAR && object->opt->assertions) { result = AssertionCheckList(interp, object, object->opt->assertions->invariants, methodName); } if (result != TCL_ERROR && checkoptions & CHECK_CLINVAR) { NsfClasses *clPtr; clPtr = ComputeOrder(object->cl, object->cl->order, Super); while (clPtr && result != TCL_ERROR) { NsfAssertionStore *aStore = (clPtr->cl->opt) ? clPtr->cl->opt->assertions : NULL; if (aStore) { result = AssertionCheckList(interp, object, aStore->invariants, methodName); } clPtr = clPtr->nextPtr; } } return result; } static int AssertionCheck(Tcl_Interp *interp, NsfObject *object, NsfClass *cl, CONST char *method, int checkOption) { NsfProcAssertion *procs; int result = TCL_OK; NsfAssertionStore *aStore; if (cl) aStore = cl->opt ? cl->opt->assertions : NULL; else aStore = object->opt ? object->opt->assertions : NULL; assert(object->opt); if (checkOption & object->opt->checkoptions) { procs = AssertionFindProcs(aStore, method); if (procs) { switch (checkOption) { case CHECK_PRE: result = AssertionCheckList(interp, object, procs->pre, method); break; case CHECK_POST: result = AssertionCheckList(interp, object, procs->post, method); break; } } if (result != TCL_ERROR) result = AssertionCheckInvars(interp, object, method, object->opt->checkoptions); } return result; } static int AssertionSetCheckOptions(Tcl_Interp *interp, NsfObject *object, Tcl_Obj *arg) { NsfObjectOpt *opt = NsfRequireObjectOpt(object); int ocArgs, i; Tcl_Obj **ovArgs; opt->checkoptions = CHECK_NONE; if (Tcl_ListObjGetElements(interp, arg, &ocArgs, &ovArgs) == TCL_OK && ocArgs > 0) { for (i = 0; i < ocArgs; i++) { CONST char *option = ObjStr(ovArgs[i]); if (option) { switch (*option) { case 'c': if (strcmp(option, "class-invar") == 0) { opt->checkoptions |= CHECK_CLINVAR; } break; case 'o': if (strcmp(option, "object-invar") == 0) { opt->checkoptions |= CHECK_OBJINVAR; } break; case 'p': if (strcmp(option, "pre") == 0) { opt->checkoptions |= CHECK_PRE; } else if (strcmp(option, "post") == 0) { opt->checkoptions |= CHECK_POST; } break; case 'a': if (strcmp(option, "all") == 0) { opt->checkoptions |= CHECK_ALL; } break; } } } } if (opt->checkoptions == CHECK_NONE && ocArgs>0) { return NsfVarErrMsg(interp, "Unknown check option in command '", objectName(object), " check ", ObjStr(arg), "', valid: all pre post object-invar class-invar", (char *) NULL); } return TCL_OK; } static void AssertionSetInvariants(Tcl_Interp *interp, NsfAssertionStore **assertions, Tcl_Obj *arg) { if (*assertions) TclObjListFreeList((*assertions)->invariants); else *assertions = AssertionCreateStore(); (*assertions)->invariants = AssertionNewList(interp, arg); } /* * Per-Object-Mixins */ /* * push a mixin stack information on this object */ static int MixinStackPush(NsfObject *object) { register NsfMixinStack *h = NEW(NsfMixinStack); h->currentCmdPtr = NULL; h->nextPtr = object->mixinStack; object->mixinStack = h; return 1; } /* * pop a mixin stack information on this object */ static void MixinStackPop(NsfObject *object) { register NsfMixinStack *h = object->mixinStack; object->mixinStack = h->nextPtr; FREE(NsfMixinStack, h); } /* * Appends NsfClasses *containing the mixin classes and their * superclasses to 'mixinClasses' list from a given mixinList */ static void MixinComputeOrderFullList(Tcl_Interp *interp, NsfCmdList **mixinList, NsfClasses **mixinClasses, NsfClasses **checkList, int level) { NsfCmdList *m; NsfClasses *pl, **clPtr = mixinClasses; CmdListRemoveEpoched(mixinList, GuardDel); for (m = *mixinList; m; m = m->nextPtr) { NsfClass *mCl = NsfGetClassFromCmdPtr(m->cmdPtr); if (mCl) { for (pl = ComputeOrder(mCl, mCl->order, Super); pl; pl = pl->nextPtr) { /*fprintf(stderr, " %s, ", ObjStr(pl->cl->object.cmdName));*/ if ((pl->cl->object.flags & NSF_IS_ROOT_CLASS) == 0) { NsfClassOpt *opt = pl->cl->opt; if (opt && opt->classmixins) { /* compute transitively the (class) mixin classes of this added class */ NsfClasses *cls; int i, found = 0; for (i=0, cls = *checkList; cls; i++, cls = cls->nextPtr) { /* fprintf(stderr, "+++ c%d: %s\n", i, className(cls->cl));*/ if (pl->cl == cls->cl) { found = 1; break; } } if (!found) { NsfClassListAdd(checkList, pl->cl, NULL); /*fprintf(stderr, "+++ transitive %s\n", ObjStr(pl->cl->object.cmdName));*/ MixinComputeOrderFullList(interp, &opt->classmixins, mixinClasses, checkList, level+1); } } /* fprintf(stderr, "+++ add to mixinClasses %p path: %s clPtr %p\n", mixinClasses, ObjStr(pl->cl->object.cmdName), clPtr);*/ clPtr = NsfClassListAdd(clPtr, pl->cl, m->clientData); } } } } if (level == 0 && *checkList) { NsfClassListFree(*checkList); *checkList = NULL; } } static void MixinResetOrder(NsfObject *object) { /*fprintf(stderr, "removeList %s \n", objectName(object));*/ CmdListRemoveList(&object->mixinOrder, NULL /*GuardDel*/); object->mixinOrder = NULL; } /* * Computes a linearized order of per-object and per-class mixins. Then * duplicates in the full list and with the class inheritance list of * 'obj' are eliminated. * The precendence rule is that the last occurence makes it into the * final list. */ static void MixinComputeOrder(Tcl_Interp *interp, NsfObject *object) { NsfClasses *fullList, *checkList = NULL, *mixinClasses = NULL, *nextCl, *pl, *checker, *guardChecker; if (object->mixinOrder) MixinResetOrder(object); /* append per-obj mixins */ if (object->opt) { MixinComputeOrderFullList(interp, &object->opt->mixins, &mixinClasses, &checkList, 0); } /* append per-class mixins */ for (pl = ComputeOrder(object->cl, object->cl->order, Super); pl; pl = pl->nextPtr) { NsfClassOpt *opt = pl->cl->opt; if (opt && opt->classmixins) { MixinComputeOrderFullList(interp, &opt->classmixins, &mixinClasses, &checkList, 0); } } fullList = mixinClasses; /* use no duplicates & no classes of the precedence order on the resulting list */ while (mixinClasses) { checker = nextCl = mixinClasses->nextPtr; /* fprintf(stderr, "--- checking %s\n", ObjStr(mixinClasses->cl->object.cmdName));*/ while (checker) { if (checker->cl == mixinClasses->cl) break; checker = checker->nextPtr; } /* if checker is set, it is a duplicate and ignored */ if (checker == NULL) { /* check obj->cl hierachy */ for (checker = ComputeOrder(object->cl, object->cl->order, Super); checker; checker = checker->nextPtr) { if (checker->cl == mixinClasses->cl) break; } /* if checker is set, it was found in the class hierarchy and it is ignored */ } if (checker == NULL) { /* add the class to the mixinOrder list */ NsfCmdList *new; /* fprintf(stderr, "--- adding to mixinlist %s\n", ObjStr(mixinClasses->cl->object.cmdName));*/ new = CmdListAdd(&object->mixinOrder, mixinClasses->cl->object.id, NULL, /*noDuplicates*/ 0); /* in the client data of the order list, we require the first matching guard ... scan the full list for it. */ for (guardChecker = fullList; guardChecker; guardChecker = guardChecker->nextPtr) { if (guardChecker->cl == mixinClasses->cl) { new->clientData = guardChecker->clientData; break; } } } mixinClasses = nextCl; } /* ... and free the memory of the full list */ NsfClassListFree(fullList); /*CmdListPrint(interp, "mixin order\n", obj->mixinOrder);*/ } /* * add a mixin class to 'mixinList' by appending it */ static int MixinAdd(Tcl_Interp *interp, NsfCmdList **mixinList, Tcl_Obj *nameObj, NsfClass *baseClass) { NsfClass *mixin; Tcl_Obj *guardObj = NULL; int ocName; Tcl_Obj **ovName; NsfCmdList *new; if (Tcl_ListObjGetElements(interp, nameObj, &ocName, &ovName) == TCL_OK && ocName > 1) { if (ocName == 3 && !strcmp(ObjStr(ovName[1]), NsfGlobalStrings[NSF_GUARD_OPTION])) { nameObj = ovName[0]; guardObj = ovName[2]; /*fprintf(stderr, "mixinadd name = '%s', guard = '%s'\n", ObjStr(name), ObjStr(guard));*/ } /*else return NsfVarErrMsg(interp, "mixin registration '", ObjStr(name), "' has too many elements.", (char *) NULL);*/ } if (GetClassFromObj(interp, nameObj, &mixin, baseClass) != TCL_OK) return NsfErrBadVal(interp, "mixin", "a class as mixin", ObjStr(nameObj)); new = CmdListAdd(mixinList, mixin->object.id, NULL, /*noDuplicates*/ 1); if (guardObj) { GuardAdd(interp, new, guardObj); } else { if (new->clientData) GuardDel(new); } return TCL_OK; } /* *---------------------------------------------------------------------- * AppendMatchingElement -- * * Call AppendElement for values matching the specified pattern * * Results: * void * * Side effects: * Appends element to the result object * *---------------------------------------------------------------------- */ static void AppendMatchingElement(Tcl_Interp *interp, Tcl_Obj *nameObj, CONST char *pattern) { CONST char *string = ObjStr(nameObj); if (!pattern || Tcl_StringMatch(string, pattern)) { Tcl_AppendElement(interp, string); } } /* *---------------------------------------------------------------------- * AppendMatchingElementsFromCmdList -- * * Apply AppendMatchingElement() to all elements of the passed * Cmdlist * * Results: * 1 iff a matching object was provided and it was found; 0 otherwise * * Side effects: * Appends elements to the result * *---------------------------------------------------------------------- */ static int AppendMatchingElementsFromCmdList(Tcl_Interp *interp, NsfCmdList *cmdl, CONST char *pattern, NsfObject *matchObject) { int rc = 0; for ( ; cmdl; cmdl = cmdl->nextPtr) { NsfObject *object = NsfGetObjectFromCmdPtr(cmdl->cmdPtr); if (object) { if (matchObject == object) { return 1; } else { AppendMatchingElement(interp, object->cmdName, pattern); } } } return rc; } /* *---------------------------------------------------------------------- * AppendMatchingElementsFromClasses -- * * Apply AppendMatchingElement() to all elements of the passed * class list * * Results: * 1 iff a matching object was provided and it was found; 0 otherwise * * Side effects: * Appends elements to the result * *---------------------------------------------------------------------- */ static int AppendMatchingElementsFromClasses(Tcl_Interp *interp, NsfClasses *cls, CONST char *pattern, NsfObject *matchObject) { int rc = 0; for ( ; cls; cls = cls->nextPtr) { NsfObject *object = (NsfObject *)cls->cl; if (object) { if (matchObject && object == matchObject) { /* we have a matchObject and it is identical to obj, just return true and don't continue search */ return 1; break; } else { AppendMatchingElement(interp, object->cmdName, pattern); } } } return rc; } /* *---------------------------------------------------------------------- * GetAllInstances -- * * Get all instances of a class recursively into an initialized * String key hashtable * * Results: * void * * Side effects: * Passed hash table contains instances * *---------------------------------------------------------------------- */ static void GetAllInstances(Tcl_Interp *interp, Tcl_HashTable *destTablePtr, NsfClass *startCl) { Tcl_HashTable *tablePtr = &startCl->instances; NsfClasses *sc; Tcl_HashSearch search; Tcl_HashEntry *hPtr; for (hPtr = Tcl_FirstHashEntry(tablePtr, &search); hPtr; hPtr = Tcl_NextHashEntry(&search)) { NsfObject *inst = (NsfObject *)Tcl_GetHashKey(tablePtr, hPtr); int new; Tcl_CreateHashEntry(destTablePtr, objectName(inst), &new); /* fprintf (stderr, " -- %s (%s)\n", objectName(inst), ObjStr(startCl->object.cmdName)); */ } for (sc = startCl->sub; sc; sc = sc->nextPtr) { GetAllInstances(interp, destTablePtr, sc->cl); } } /* *---------------------------------------------------------------------- * AddToResultSet -- * * Helper function to add classes to the result set (implemented as * a hash table), flagging test for matchObject as result * * Results: * 1 iff a matching object was provided and it was found; 0 otherwise * * Side effects: * Appends optionally element to the result object * *---------------------------------------------------------------------- */ static int AddToResultSet(Tcl_Interp *interp, Tcl_HashTable *destTable, NsfObject *object, int *new, int appendResult, CONST char *pattern, NsfObject *matchObject) { Tcl_CreateHashEntry(destTable, (char *)object, new); if (*new) { if (matchObject && matchObject == object) { return 1; } if (appendResult) { AppendMatchingElement(interp, object->cmdName, pattern); } } return 0; } /* *---------------------------------------------------------------------- * AddToResultSet -- * * Helper function to add classes with guards to the result set * (implemented as a hash table), flagging test for matchObject as * result. * * Results: * 1 iff a matching object was provided and it was found; 0 otherwise * * Side effects: * Appends optionally element to the result object * *---------------------------------------------------------------------- */ static int AddToResultSetWithGuards(Tcl_Interp *interp, Tcl_HashTable *destTable, NsfClass *cl, ClientData clientData, int *new, int appendResult, CONST char *pattern, NsfObject *matchObject) { Tcl_CreateHashEntry(destTable, (char *)cl, new); if (*new) { if (appendResult) { if (!pattern || Tcl_StringMatch(className(cl), pattern)) { Tcl_Obj *l = Tcl_NewListObj(0, NULL); Tcl_Obj *g = (Tcl_Obj*) clientData; Tcl_ListObjAppendElement(interp, l, cl->object.cmdName); Tcl_ListObjAppendElement(interp, l, NsfGlobalObjs[NSF_GUARD_OPTION]); Tcl_ListObjAppendElement(interp, l, g); Tcl_AppendElement(interp, ObjStr(l)); DECR_REF_COUNT(l); } } if (matchObject && matchObject == (NsfObject *)cl) { return 1; } } return 0; } /* *---------------------------------------------------------------------- * GetAllObjectMixinsOf -- * * Computes a set of classes, into which this class was mixed in * via per object mixin. The function gets recursively all per * object mixins from an class and its subclasses/isClassMixinOf * and adds it into an initialized object ptr hashtable * (TCL_ONE_WORD_KEYS) * * Results: * Tcl return code * * Side effects: * The set of classes is returned in the provided hash table * *---------------------------------------------------------------------- */ static int GetAllObjectMixinsOf(Tcl_Interp *interp, Tcl_HashTable *destTable, NsfClass *startCl, int isMixin, int appendResult, CONST char *pattern, NsfObject *matchObject) { int rc = 0, new = 0; NsfClasses *sc; /*fprintf(stderr, "startCl = %s, opt %p, isMixin %d, pattern '%s', matchObject %p\n", className(startCl), startCl->opt, isMixin, pattern, matchObject);*/ /* * check all subclasses of startCl for mixins */ for (sc = startCl->sub; sc; sc = sc->nextPtr) { rc = GetAllObjectMixinsOf(interp, destTable, sc->cl, isMixin, appendResult, pattern, matchObject); if (rc) {return rc;} } /*fprintf(stderr, "check subclasses of %s done\n", ObjStr(startCl->object.cmdName));*/ if (startCl->opt) { NsfCmdList *m; NsfClass *cl; for (m = startCl->opt->isClassMixinOf; m; m = m->nextPtr) { /* we should have no deleted commands in the list */ assert(Tcl_Command_cmdEpoch(m->cmdPtr) == 0); cl = NsfGetClassFromCmdPtr(m->cmdPtr); assert(cl); /*fprintf(stderr, "check %s mixinof %s\n", className(cl), ObjStr(startCl->object.cmdName));*/ rc = GetAllObjectMixinsOf(interp, destTable, cl, isMixin, appendResult, pattern, matchObject); /* fprintf(stderr, "check %s mixinof %s done\n", className(cl), ObjStr(startCl->object.cmdName));*/ if (rc) {return rc;} } } /* * check, if startCl has associated per-object mixins */ if (startCl->opt) { NsfCmdList *m; NsfObject *object; for (m = startCl->opt->isObjectMixinOf; m; m = m->nextPtr) { /* we should have no deleted commands in the list */ assert(Tcl_Command_cmdEpoch(m->cmdPtr) == 0); object = NsfGetObjectFromCmdPtr(m->cmdPtr); assert(object); rc = AddToResultSet(interp, destTable, object, &new, appendResult, pattern, matchObject); if (rc == 1) {return rc;} } } return rc; } /* *---------------------------------------------------------------------- * GetAllClassMixinsOf -- * * Computes a set of classes, into which this class was mixed in * via as a class mixin. The function gets recursively all per * class mixins from an class and its subclasses and adds it * into an initialized object ptr hashtable (TCL_ONE_WORD_KEYS) * * Results: * Tcl return code * * Side effects: * The set of classes is returned in the provided hash table * *---------------------------------------------------------------------- */ static int GetAllClassMixinsOf(Tcl_Interp *interp, Tcl_HashTable *destTable, /*@notnull@*/ NsfClass *startCl, int isMixin, int appendResult, CONST char *pattern, NsfObject *matchObject) { int rc = 0, new = 0; NsfClass *cl; NsfClasses *sc; assert(startCl); /*fprintf(stderr, "startCl = %p %s, opt %p, isMixin %d\n", startCl, className(startCl), startCl->opt, isMixin);*/ /* * the startCl is a per class mixin, add it to the result set */ if (isMixin) { rc = AddToResultSet(interp, destTable, &startCl->object, &new, appendResult, pattern, matchObject); if (rc == 1) {return rc;} /* * check all subclasses of startCl for mixins */ for (sc = startCl->sub; sc; sc = sc->nextPtr) { if (sc->cl != startCl) { rc = GetAllClassMixinsOf(interp, destTable, sc->cl, isMixin, appendResult, pattern, matchObject); if (rc) {return rc;} } else { /* TODO: sanity check; it seems that we can create via __default_superclass a class which has itself als subclass */ fprintf(stderr, "... STRANGE %p is subclass of %p %s, sub %p\n", sc->cl, startCl, className(startCl), startCl->sub); } } } /* * check, if startCl is a per-class mixin of some other classes */ if (startCl->opt) { NsfCmdList *m; for (m = startCl->opt->isClassMixinOf; m; m = m->nextPtr) { /* we should have no deleted commands in the list */ assert(Tcl_Command_cmdEpoch(m->cmdPtr) == 0); cl = NsfGetClassFromCmdPtr(m->cmdPtr); assert(cl); rc = AddToResultSet(interp, destTable, &cl->object, &new, appendResult, pattern, matchObject); if (rc == 1) {return rc;} if (new) { /*fprintf(stderr, "... new\n");*/ rc = GetAllClassMixinsOf(interp, destTable, cl, 1, appendResult, pattern, matchObject); if (rc) {return rc;} } } } return rc; } /* *---------------------------------------------------------------------- * GetAllClassMixins -- * * Computes a set class-mixins of a given class and handles * transitive cases. The classes are added it into an initialized * object ptr hashtable (TCL_ONE_WORD_KEYS) * * Results: * Tcl return code * * Side effects: * The set of classes is returned in the provided hash table * *---------------------------------------------------------------------- */ static int GetAllClassMixins(Tcl_Interp *interp, Tcl_HashTable *destTable, NsfClass *startCl, int withGuards, CONST char *pattern, NsfObject *matchObject) { int rc = 0, new = 0; NsfClass *cl; NsfClasses *sc; /* * check this class for classmixins */ if (startCl->opt) { NsfCmdList *m; for (m = startCl->opt->classmixins; m; m = m->nextPtr) { /* we should have no deleted commands in the list */ assert(Tcl_Command_cmdEpoch(m->cmdPtr) == 0); cl = NsfGetClassFromCmdPtr(m->cmdPtr); assert(cl); /* fprintf(stderr, "class mixin found: %s\n", className(cl)); */ if ((withGuards) && (m->clientData)) { /* fprintf(stderr, "AddToResultSetWithGuards: %s\n", className(cl)); */ rc = AddToResultSetWithGuards(interp, destTable, cl, m->clientData, &new, 1, pattern, matchObject); } else { /* fprintf(stderr, "AddToResultSet: %s\n", className(cl)); */ rc = AddToResultSet(interp, destTable, &cl->object, &new, 1, pattern, matchObject); } if (rc == 1) {return rc;} if (new) { /* fprintf(stderr, "class mixin GetAllClassMixins for: %s (%s)\n", className(cl), ObjStr(startCl->object.cmdName)); */ rc = GetAllClassMixins(interp, destTable, cl, withGuards, pattern, matchObject); if (rc) {return rc;} } } } /* * check all superclasses of startCl for classmixins */ for (sc = startCl->super; sc; sc = sc->nextPtr) { /* fprintf(stderr, "Superclass GetAllClassMixins for %s (%s)\n", ObjStr(sc->cl->object.cmdName), ObjStr(startCl->object.cmdName)); */ rc = GetAllClassMixins(interp, destTable, sc->cl, withGuards, pattern, matchObject); if (rc) {return rc;} } return rc; } static void RemoveFromClassMixinsOf(Tcl_Command cmd, NsfCmdList *cmdlist) { for ( ; cmdlist; cmdlist = cmdlist->nextPtr) { NsfClass *ncl = NsfGetClassFromCmdPtr(cmdlist->cmdPtr); NsfClassOpt *nclopt = ncl ? ncl->opt : NULL; if (nclopt) { NsfCmdList *del = CmdListFindCmdInList(cmd, nclopt->isClassMixinOf); if (del) { /* fprintf(stderr, "Removing class %s from isClassMixinOf of class %s\n", className(cl), ObjStr(NsfGetClassFromCmdPtr(cmdlist->cmdPtr)->object.cmdName)); */ del = CmdListRemoveFromList(&nclopt->isClassMixinOf, del); CmdListDeleteCmdListEntry(del, GuardDel); } } } } static void RemoveFromObjectMixinsOf(Tcl_Command cmd, NsfCmdList *cmdlist) { for ( ; cmdlist; cmdlist = cmdlist->nextPtr) { NsfClass *cl = NsfGetClassFromCmdPtr(cmdlist->cmdPtr); NsfClassOpt *clopt = cl ? cl->opt : NULL; if (clopt) { NsfCmdList *del = CmdListFindCmdInList(cmd, clopt->isObjectMixinOf); if (del) { /* fprintf(stderr, "Removing object %s from isObjectMixinOf of Class %s\n", objectName(object), ObjStr(NsfGetClassFromCmdPtr(cmdlist->cmdPtr)->object.cmdName)); */ del = CmdListRemoveFromList(&clopt->isObjectMixinOf, del); CmdListDeleteCmdListEntry(del, GuardDel); } } /* else fprintf(stderr, "CleanupDestroyObject %s: NULL pointer in mixins!\n", objectName(object)); */ } } static void RemoveFromClassmixins(Tcl_Command cmd, NsfCmdList *cmdlist) { for ( ; cmdlist; cmdlist = cmdlist->nextPtr) { NsfClass *cl = NsfGetClassFromCmdPtr(cmdlist->cmdPtr); NsfClassOpt *clopt = cl ? cl->opt : NULL; if (clopt) { NsfCmdList *del = CmdListFindCmdInList(cmd, clopt->classmixins); if (del) { /* fprintf(stderr, "Removing class %s from mixins of object %s\n", className(cl), ObjStr(NsfGetObjectFromCmdPtr(cmdlist->cmdPtr)->cmdName)); */ del = CmdListRemoveFromList(&clopt->classmixins, del); CmdListDeleteCmdListEntry(del, GuardDel); if (cl->object.mixinOrder) MixinResetOrder(&cl->object); } } } } static void RemoveFromMixins(Tcl_Command cmd, NsfCmdList *cmdlist) { for ( ; cmdlist; cmdlist = cmdlist->nextPtr) { NsfObject *nobj = NsfGetObjectFromCmdPtr(cmdlist->cmdPtr); NsfObjectOpt *objopt = nobj ? nobj->opt : NULL; if (objopt) { NsfCmdList *del = CmdListFindCmdInList(cmd, objopt->mixins); if (del) { /* fprintf(stderr, "Removing class %s from mixins of object %s\n", className(cl), ObjStr(NsfGetObjectFromCmdPtr(cmdlist->cmdPtr)->cmdName)); */ del = CmdListRemoveFromList(&objopt->mixins, del); CmdListDeleteCmdListEntry(del, GuardDel); if (nobj->mixinOrder) MixinResetOrder(nobj); } } } } /* * Reset mixin order for instances of a class */ static void MixinResetOrderForInstances(Tcl_Interp *interp, NsfClass *cl) { Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; hPtr = Tcl_FirstHashEntry(&cl->instances, &hSrch); /*fprintf(stderr, "invalidating instances of class %s\n", ObjStr(clPtr->cl->object.cmdName));*/ /* Here we should check, whether this class is used as an object or class mixin somewhere else and invalidate the objects of these as well -- */ for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { NsfObject *object = (NsfObject *)Tcl_GetHashKey(&cl->instances, hPtr); if (object && !(object->flags & NSF_DURING_DELETE) && (object->flags & NSF_MIXIN_ORDER_DEFINED_AND_VALID)) { MixinResetOrder(object); object->flags &= ~NSF_MIXIN_ORDER_VALID; } } } /* reset mixin order for all objects having this class as per object mixin */ static void ResetOrderOfClassesUsedAsMixins(NsfClass *cl) { /*fprintf(stderr, "ResetOrderOfClassesUsedAsMixins %s - %p\n", className(cl), cl->opt);*/ if (cl->opt) { NsfCmdList *ml; for (ml = cl->opt->isObjectMixinOf; ml; ml = ml->nextPtr) { NsfObject *object = NsfGetObjectFromCmdPtr(ml->cmdPtr); if (object) { if (object->mixinOrder) { MixinResetOrder(object); } object->flags &= ~NSF_MIXIN_ORDER_VALID; } } } } /* * if the class hierarchy or class mixins have changed -> * invalidate mixin entries in all dependent instances */ static void MixinInvalidateObjOrders(Tcl_Interp *interp, NsfClass *cl) { NsfClasses *saved = cl->order, *clPtr; Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; Tcl_HashTable objTable, *commandTable = &objTable; cl->order = NULL; /* reset mixin order for all instances of the class and the instances of its subclasses */ for (clPtr = ComputeOrder(cl, cl->order, Sub); clPtr; clPtr = clPtr->nextPtr) { Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr = &clPtr->cl->instances ? Tcl_FirstHashEntry(&clPtr->cl->instances, &hSrch) : NULL; /* reset mixin order for all objects having this class as per object mixin */ ResetOrderOfClassesUsedAsMixins(clPtr->cl); /* fprintf(stderr, "invalidating instances of class %s\n", ObjStr(clPtr->cl->object.cmdName)); */ for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { NsfObject *object = (NsfObject *)Tcl_GetHashKey(&clPtr->cl->instances, hPtr); if (object->mixinOrder) { MixinResetOrder(object); } object->flags &= ~NSF_MIXIN_ORDER_VALID; } } NsfClassListFree(cl->order); cl->order = saved; /* Reset mixin order for all objects having this class as a per class mixin. This means that we have to work through the class mixin hierarchy with its corresponding instances. */ Tcl_InitHashTable(commandTable, TCL_ONE_WORD_KEYS); MEM_COUNT_ALLOC("Tcl_InitHashTable", commandTable); GetAllClassMixinsOf(interp, commandTable, cl, 1, 0, NULL, NULL); for (hPtr = Tcl_FirstHashEntry(commandTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { NsfClass *ncl = (NsfClass *)Tcl_GetHashKey(commandTable, hPtr); /*fprintf(stderr, "Got %s, reset for ncl %p\n", ncl?ObjStr(ncl->object.cmdName):"NULL", ncl);*/ if (ncl) { MixinResetOrderForInstances(interp, ncl); /* this place seems to be sufficient to invalidate the computed object parameter definitions */ /*fprintf(stderr, "MixinInvalidateObjOrders via class mixin %s calls ifd invalidate \n", className(ncl));*/ NsfInvalidateObjectParameterCmd(interp, ncl); } } Tcl_DeleteHashTable(commandTable); MEM_COUNT_FREE("Tcl_InitHashTable", commandTable); } /* * the mixin order is either * DEFINED (there are mixins on the instance), * NONE (there are no mixins for the instance), * or INVALID (a class re-strucuturing has occured, thus it is not clear * whether mixins are defined or not). * If it is INVALID MixinComputeDefined can be used to compute the order * and set the instance to DEFINED or NONE */ static void MixinComputeDefined(Tcl_Interp *interp, NsfObject *object) { MixinComputeOrder(interp, object); object->flags |= NSF_MIXIN_ORDER_VALID; if (object->mixinOrder) object->flags |= NSF_MIXIN_ORDER_DEFINED; else object->flags &= ~NSF_MIXIN_ORDER_DEFINED; } /* * Walk through the command list until the current command is reached. * return the next entry. * */ static NsfCmdList * SeekCurrent(Tcl_Command currentCmd, register NsfCmdList *cmdl) { if (currentCmd) { /* go forward to current class */ for (; cmdl; cmdl = cmdl->nextPtr) { if (cmdl->cmdPtr == currentCmd) { return cmdl->nextPtr; } } } return cmdl; } /* * before we can perform a mixin dispatch, MixinSearchProc seeks the * current mixin and the relevant calling information */ static int MixinSearchProc(Tcl_Interp *interp, NsfObject *object, CONST char *methodName, NsfClass **cl, Tcl_Command *currentCmdPtr, Tcl_Command *cmdPtr) { Tcl_Command cmd = NULL; NsfCmdList *cmdList; NsfClass *cls; int result = TCL_OK; assert(object); assert(object->mixinStack); /* ensure that the mixin order is not invalid, otherwise compute order */ assert(object->flags & NSF_MIXIN_ORDER_VALID); /*MixinComputeDefined(interp, object);*/ cmdList = SeekCurrent(object->mixinStack->currentCmdPtr, object->mixinOrder); RUNTIME_STATE(interp)->cmdPtr = cmdList ? cmdList->cmdPtr : NULL; /* fprintf(stderr, "MixinSearch searching for '%s' %p\n", methodName, cmdList); */ /*CmdListPrint(interp, "MixinSearch CL = \n", cmdList);*/ for (; cmdList; cmdList = cmdList->nextPtr) { if (Tcl_Command_cmdEpoch(cmdList->cmdPtr)) { continue; } cls = NsfGetClassFromCmdPtr(cmdList->cmdPtr); assert(cls); /* fprintf(stderr, "+++ MixinSearch %s->%s in %p cmdPtr %p clientData %p\n", objectName(object), methodName, cmdList, cmdList->cmdPtr, cmdList->clientData); */ cmd = FindMethod(cls->nsPtr, methodName); if (cmd == NULL) { continue; } if (Tcl_Command_flags(cmd) & NSF_CMD_CLASS_ONLY_METHOD) { /*fprintf(stderr, "we found class specific method %s on class %s object %s, isclass %d\n", methodName, className(cls), objectName(object), NsfObjectIsClass(object));*/ if (!NsfObjectIsClass(object)) { /* the command is not for us; skip it */ cmd = NULL; continue; } } if (cmdList->clientData) { if (!RUNTIME_STATE(interp)->guardCount) { result = GuardCall(object, cls, (Tcl_Command) cmd, interp, (Tcl_Obj*)cmdList->clientData, NULL); } } if (result == TCL_OK) { /* * on success: compute mixin call data */ *cl = cls; *currentCmdPtr = cmdList->cmdPtr; break; } else if (result == TCL_ERROR) { break; } else { if (result == NSF_CHECK_FAILED) result = TCL_OK; cmd = NULL; } } *cmdPtr = cmd; return result; } /* * info option for mixins and classmixins */ static int MixinInfo(Tcl_Interp *interp, NsfCmdList *m, CONST char *pattern, int withGuards, NsfObject *matchObject) { Tcl_Obj *list = Tcl_NewListObj(0, NULL); NsfClass *mixinClass; /*fprintf(stderr, " mixin info m=%p, pattern %s, matchObject %p\n", m, pattern, matchObject);*/ while (m) { /* fprintf(stderr, " mixin info m=%p, next=%p, pattern %s, matchObject %p\n", m, m->next, pattern, matchObject);*/ mixinClass = NsfGetClassFromCmdPtr(m->cmdPtr); if (mixinClass && (!pattern || (matchObject && &(mixinClass->object) == matchObject) || (!matchObject && Tcl_StringMatch(ObjStr(mixinClass->object.cmdName), pattern)))) { if (withGuards && m->clientData) { Tcl_Obj *l = Tcl_NewListObj(0, NULL); Tcl_Obj *g = (Tcl_Obj*) m->clientData; Tcl_ListObjAppendElement(interp, l, mixinClass->object.cmdName); Tcl_ListObjAppendElement(interp, l, NsfGlobalObjs[NSF_GUARD_OPTION]); Tcl_ListObjAppendElement(interp, l, g); Tcl_ListObjAppendElement(interp, list, l); } else { Tcl_ListObjAppendElement(interp, list, mixinClass->object.cmdName); } if (matchObject) break; } m = m->nextPtr; } Tcl_SetObjResult(interp, list); return TCL_OK; } /* * info option for mixinofs and isClassMixinOf */ static Tcl_Command MixinSearchMethodByName(Tcl_Interp *interp, NsfCmdList *mixinList, CONST char *name, NsfClass **cl) { Tcl_Command cmd; for (; mixinList; mixinList = mixinList->nextPtr) { NsfClass *foundCl = GetClassFromString(interp, (char *) Tcl_GetCommandName(interp, mixinList->cmdPtr)); if (foundCl && SearchCMethod(foundCl, name, &cmd)) { if (cl) *cl = foundCl; return cmd; } } return 0; } /* * Filter-Commands */ /* * The search method implements filter search order for object and * class ilter: first a given name is interpreted as fully qualified * method name. If no method is found, a proc is searched with fully * name. Otherwise the simple name is searched on the heritage order: * object (only for per-object filters), class, meta-class */ static Tcl_Command FilterSearch(Tcl_Interp *interp, CONST char *name, NsfObject *startingObject, NsfClass *startingClass, NsfClass **cl) { Tcl_Command cmd = NULL; if (startingObject) { NsfObjectOpt *opt = startingObject->opt; /* * the object-specific filter can also be defined on the object's * class, its hierarchy, or the respective classmixins; thus use the * object's class as start point for the class-specific search then ... */ startingClass = startingObject->cl; /* * search for filters on object mixins */ if (opt && opt->mixins) { if ((cmd = MixinSearchMethodByName(interp, opt->mixins, name, cl))) { return cmd; } } } /* * search for classfilters on classmixins */ if (startingClass) { NsfClassOpt *opt = startingClass->opt; if (opt && opt->classmixins) { if ((cmd = MixinSearchMethodByName(interp, opt->classmixins, name, cl))) { return cmd; } } } /* * seach for object procs that are used as filters */ if (startingObject && startingObject->nsPtr) { /*fprintf(stderr, "search filter %s as proc \n", name);*/ if ((cmd = FindMethod(startingObject->nsPtr, name))) { *cl = (NsfClass*)startingObject; return cmd; } } /* * ok, no filter on obj or mixins -> search class */ if (startingClass) { *cl = SearchCMethod(startingClass, name, &cmd); if (!*cl) { /* * If no filter is found yet -> search the meta-class */ *cl = SearchCMethod(startingClass->object.cl, name, &cmd); } } return cmd; } /* * Filter Guards */ /* check a filter guard, return 1 if ok */ static int GuardCheck(Tcl_Interp *interp, Tcl_Obj *guardObj) { int result; NsfRuntimeState *rst = RUNTIME_STATE(interp); if (guardObj) { /* * if there are more than one filter guard for this filter * (i.e. they are inherited), then they are OR combined * -> if one check succeeds => return 1 */ /*fprintf(stderr, "checking guard **%s**\n", ObjStr(guardObj));*/ rst->guardCount++; result = CheckConditionInScope(interp, guardObj); rst->guardCount--; /*fprintf(stderr, "checking guard **%s** returned rc=%d\n", ObjStr(guardObj), rc);*/ if (result == TCL_OK) { /* fprintf(stderr, " +++ OK\n"); */ return TCL_OK; } else if (result == TCL_ERROR) { Tcl_Obj *sr = Tcl_GetObjResult(interp); INCR_REF_COUNT(sr); /* fprintf(stderr, " +++ ERROR\n");*/ NsfVarErrMsg(interp, "Guard Error: '", ObjStr(guardObj), "'\n\n", ObjStr(sr), (char *) NULL); DECR_REF_COUNT(sr); return TCL_ERROR; } } /* fprintf(stderr, " +++ FAILED\n"); */ return NSF_CHECK_FAILED; } /* static void GuardPrint(Tcl_Interp *interp, ClientData clientData) { Tcl_Obj *guardObj = (TclObj*) clientData; fprintf(stderr, " +++ \n"); if (guardObj) { fprintf(stderr, " * %s \n", ObjStr(guardObj)); } fprintf(stderr, " +++ \n"); } */ static void GuardDel(NsfCmdList *CL) { /*fprintf(stderr, "GuardDel %p clientData = %p\n", CL, CL? CL->clientData : NULL);*/ if (CL && CL->clientData) { DECR_REF_COUNT((Tcl_Obj *)CL->clientData); CL->clientData = NULL; } } NSF_INLINE static void GuardAdd(Tcl_Interp *interp, NsfCmdList *CL, Tcl_Obj *guardObj) { if (guardObj) { GuardDel(CL); if (strlen(ObjStr(guardObj)) != 0) { INCR_REF_COUNT(guardObj); CL->clientData = (ClientData) guardObj; /*fprintf(stderr, "guard added to %p cmdPtr=%p, clientData= %p\n", CL, CL->cmdPtr, CL->clientData); */ } } } /* static void GuardAddList(Tcl_Interp *interp, NsfCmdList *dest, ClientData source) { NsfTclObjList *s = (NsfTclObjList *)source; GuardAdd(interp, dest, (Tcl_Obj *)s->content); s = s->nextPtr; } */ static int GuardCall(NsfObject *object, NsfClass *cl, Tcl_Command cmd, Tcl_Interp *interp, Tcl_Obj *guardObj, NsfCallStackContent *cscPtr) { int result = TCL_OK; if (guardObj) { Tcl_Obj *res = Tcl_GetObjResult(interp); /* save the result */ Tcl_CallFrame frame, *framePtr = &frame; INCR_REF_COUNT(res); /* GuardPrint(interp, cmdList->clientData); */ /* * For the guard push a fake callframe on the Tcl stack so that * e.g. a "self calledproc" and other methods in the guard behave * like in the proc. */ if (cscPtr) { Nsf_PushFrameCsc(interp, cscPtr, framePtr); } else { Nsf_PushFrameObj(interp, object, framePtr); } result = GuardCheck(interp, guardObj); if (cscPtr) { Nsf_PopFrameCsc(interp, framePtr); } else { Nsf_PopFrameObj(interp, framePtr); } if (result != TCL_ERROR) { Tcl_SetObjResult(interp, res); /* restore the result */ } DECR_REF_COUNT(res); } return result; } static int GuardAddFromDefinitionList(Tcl_Interp *interp, NsfCmdList *dest, Tcl_Command interceptorCmd, NsfCmdList *interceptorDefList) { NsfCmdList *h; if (interceptorDefList) { h = CmdListFindCmdInList(interceptorCmd, interceptorDefList); if (h) { GuardAdd(interp, dest, (Tcl_Obj*) h->clientData); /* * 1 means we have added a guard successfully "interceptorCmd" */ return 1; } } /* * 0 means we have not added a guard successfully "interceptorCmd" */ return 0; } static void GuardAddInheritedGuards(Tcl_Interp *interp, NsfCmdList *dest, NsfObject *object, Tcl_Command filterCmd) { NsfClasses *pl; int guardAdded = 0; NsfObjectOpt *opt; /* search guards for classfilters registered on mixins */ if (!(object->flags & NSF_MIXIN_ORDER_VALID)) MixinComputeDefined(interp, object); if (object->flags & NSF_MIXIN_ORDER_DEFINED_AND_VALID) { NsfCmdList *ml; NsfClass *mixin; for (ml = object->mixinOrder; ml && !guardAdded; ml = ml->nextPtr) { mixin = NsfGetClassFromCmdPtr(ml->cmdPtr); if (mixin && mixin->opt) { guardAdded = GuardAddFromDefinitionList(interp, dest, filterCmd, mixin->opt->classfilters); } } } /* search per-object filters */ opt = object->opt; if (!guardAdded && opt && opt->filters) { guardAdded = GuardAddFromDefinitionList(interp, dest, filterCmd, opt->filters); } if (!guardAdded) { /* search per-class filters */ for (pl = ComputeOrder(object->cl, object->cl->order, Super); !guardAdded && pl; pl = pl->nextPtr) { NsfClassOpt *opt = pl->cl->opt; if (opt) { guardAdded = GuardAddFromDefinitionList(interp, dest, filterCmd, opt->classfilters); } } /* * if this is not a registered filter, it is an inherited filter, like: * Class create A * A method f ... * Class create B -superclass A * B method {{f {}}} * B filter f * -> get the guard from the filter that inherits it (here B->f) */ if (!guardAdded) { NsfCmdList *registeredFilter = CmdListFindNameInList(interp, (char *) Tcl_GetCommandName(interp, filterCmd), object->filterOrder); if (registeredFilter) { GuardAdd(interp, dest, (Tcl_Obj*) registeredFilter->clientData); } } } } static int GuardList(Tcl_Interp *interp, NsfCmdList *frl, CONST char *interceptorName) { NsfCmdList *h; if (frl) { /* try to find simple name first */ h = CmdListFindNameInList(interp, interceptorName, frl); if (!h) { /* maybe it is a qualified name */ Tcl_Command cmd = NSFindCommand(interp, interceptorName, NULL); if (cmd) { h = CmdListFindCmdInList(cmd, frl); } } if (h) { Tcl_ResetResult(interp); if (h->clientData) { Tcl_Obj *g = (Tcl_Obj*) h->clientData; Tcl_SetObjResult(interp, g); } return TCL_OK; } } return NsfVarErrMsg(interp, "info (*)guard: can't find filter/mixin ", interceptorName, (char *) NULL); } /* * append a filter command to the 'filterList' of an obj/class */ static int FilterAdd(Tcl_Interp *interp, NsfCmdList **filterList, Tcl_Obj *nameObj, NsfObject *startingObject, NsfClass *startingClass) { Tcl_Command cmd; int ocName; Tcl_Obj **ovName; Tcl_Obj *guardObj = NULL; NsfCmdList *new; NsfClass *cl; if (Tcl_ListObjGetElements(interp, nameObj, &ocName, &ovName) == TCL_OK && ocName > 1) { if (ocName == 3 && !strcmp(ObjStr(ovName[1]), NsfGlobalStrings[NSF_GUARD_OPTION])) { nameObj = ovName[0]; guardObj = ovName[2]; } } if (!(cmd = FilterSearch(interp, ObjStr(nameObj), startingObject, startingClass, &cl))) { if (startingObject) return NsfVarErrMsg(interp, "object filter: can't find filterproc on: ", objectName(startingObject), " - proc: ", ObjStr(nameObj), (char *) NULL); else return NsfVarErrMsg(interp, "class filter: can't find filterproc on: ", className(startingClass), " - proc: ", ObjStr(nameObj), (char *) NULL); } /*fprintf(stderr, " +++ adding filter %s cl %p\n", ObjStr(nameObj), cl);*/ new = CmdListAdd(filterList, cmd, cl, /*noDuplicates*/ 1); if (guardObj) { GuardAdd(interp, new, guardObj); } else { if (new->clientData) GuardDel(new); } return TCL_OK; } /* * reset the filter order cached in obj->filterOrder */ static void FilterResetOrder(NsfObject *object) { CmdListRemoveList(&object->filterOrder, GuardDel); object->filterOrder = NULL; } /* * search the filter in the hierarchy again with FilterSearch, e.g. * upon changes in the class hierarchy or mixins that carry the filter * command, so that we can be sure it is still reachable. */ static void FilterSearchAgain(Tcl_Interp *interp, NsfCmdList **filters, NsfObject *startingObject, NsfClass *startingClass) { char *simpleName; Tcl_Command cmd; NsfCmdList *cmdList, *del; NsfClass *cl = NULL; CmdListRemoveEpoched(filters, GuardDel); for (cmdList = *filters; cmdList; ) { simpleName = (char *) Tcl_GetCommandName(interp, cmdList->cmdPtr); cmd = FilterSearch(interp, simpleName, startingObject, startingClass, &cl); if (cmd == NULL) { del = CmdListRemoveFromList(filters, cmdList); cmdList = cmdList->nextPtr; CmdListDeleteCmdListEntry(del, GuardDel); } else if (cmd != cmdList->cmdPtr) { CmdListReplaceCmd(cmdList, cmd, cl); cmdList = cmdList->nextPtr; } else { cmdList = cmdList->nextPtr; } } /* some entries might be NULL now, if they are not found anymore -> delete those CmdListRemoveNulledEntries(filters, GuardDel); */ } /* * if the class hierarchy or class filters have changed -> * invalidate filter entries in all dependent instances * */ static void FilterInvalidateObjOrders(Tcl_Interp *interp, NsfClass *cl) { NsfClasses *saved = cl->order, *clPtr, *savePtr; cl->order = NULL; savePtr = clPtr = ComputeOrder(cl, cl->order, Sub); cl->order = saved; for ( ; clPtr; clPtr = clPtr->nextPtr) { Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr = &clPtr->cl->instances ? Tcl_FirstHashEntry(&clPtr->cl->instances, &hSrch) : NULL; /* recalculate the commands of all class-filter registrations */ if (clPtr->cl->opt) { FilterSearchAgain(interp, &clPtr->cl->opt->classfilters, 0, clPtr->cl); } for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { NsfObject *object = (NsfObject *)Tcl_GetHashKey(&clPtr->cl->instances, hPtr); FilterResetOrder(object); object->flags &= ~NSF_FILTER_ORDER_VALID; /* recalculate the commands of all object filter registrations */ if (object->opt) { FilterSearchAgain(interp, &object->opt->filters, object, 0); } } } NsfClassListFree(savePtr); } /* * from cl on down the hierarchy we remove all filters * the refer to "removeClass" namespace. E.g. used to * remove filters defined in superclass list from dependent * class cl */ static void FilterRemoveDependentFilterCmds(NsfClass *cl, NsfClass *removeClass) { NsfClasses *saved = cl->order, *clPtr; cl->order = NULL; /*fprintf(stderr, "FilterRemoveDependentFilterCmds cl %p %s, removeClass %p %s\n", cl, className(cl), removeClass, ObjStr(removeClass->object.cmdName));*/ for (clPtr = ComputeOrder(cl, cl->order, Sub); clPtr; clPtr = clPtr->nextPtr) { Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr = &clPtr->cl->instances ? Tcl_FirstHashEntry(&clPtr->cl->instances, &hSrch) : NULL; NsfClassOpt *opt = clPtr->cl->opt; if (opt) { CmdListRemoveContextClassFromList(&opt->classfilters, removeClass, GuardDel); } for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { NsfObject *object = (NsfObject*) Tcl_GetHashKey(&clPtr->cl->instances, hPtr); if (object->opt) { CmdListRemoveContextClassFromList(&object->opt->filters, removeClass, GuardDel); } } } NsfClassListFree(cl->order); cl->order = saved; } /* *---------------------------------------------------------------------- * MethodHandleObj -- * * Builds a methodHandle from a method name. In case the method * name is fully qualified, it is simply returned. * * Results: * fresh Tcl_Obj * * Side effects: * none * *---------------------------------------------------------------------- */ static Tcl_Obj * MethodHandleObj(NsfObject *object, int withPer_object, CONST char *methodName) { Tcl_Obj *resultObj; if (*methodName == ':') { /* * if we have a methodname starting with ":" and we made it so far, * we assume it is correct */ resultObj = Tcl_NewStringObj(methodName, -1); } else { resultObj = Tcl_NewStringObj(withPer_object ? "" : "::nsf::classes", -1); assert(object); Tcl_AppendObjToObj(resultObj, object->cmdName); Tcl_AppendStringsToObj(resultObj, "::", methodName, (char *) NULL); } return resultObj; } /* * info option for filters and classfilters * withGuards -> if not 0 => append guards * withMethodHandles -> if not 0 => return method handles */ static int FilterInfo(Tcl_Interp *interp, NsfCmdList *f, CONST char *pattern, int withGuards, int withMethodHandles) { CONST char *simpleName; Tcl_Obj *list = Tcl_NewListObj(0, NULL); /*fprintf(stderr, "FilterInfo %p %s %d %d\n", pattern, pattern, withGuards, withMethodHandles);*/ /* guard lists should only have unqualified filter lists when withGuards is activated, withMethodHandles has no effect */ if (withGuards) { withMethodHandles = 0; } while (f) { simpleName = Tcl_GetCommandName(interp, f->cmdPtr); if (!pattern || Tcl_StringMatch(simpleName, pattern)) { if (withGuards && f->clientData) { Tcl_Obj *innerList = Tcl_NewListObj(0, NULL); Tcl_Obj *g = (Tcl_Obj*) f->clientData; Tcl_ListObjAppendElement(interp, innerList, Tcl_NewStringObj(simpleName, -1)); Tcl_ListObjAppendElement(interp, innerList, NsfGlobalObjs[NSF_GUARD_OPTION]); Tcl_ListObjAppendElement(interp, innerList, g); Tcl_ListObjAppendElement(interp, list, innerList); } else { if (withMethodHandles) { NsfClass *filterClass = f->clorobj; Tcl_ListObjAppendElement(interp, list, MethodHandleObj((NsfObject *)filterClass, !NsfObjectIsClass(&filterClass->object), simpleName)); } else { Tcl_ListObjAppendElement(interp, list, Tcl_NewStringObj(simpleName, -1)); } } } f = f->nextPtr; } Tcl_SetObjResult(interp, list); return TCL_OK; } /* * Appends NsfCmdPtr *containing the filter cmds and their * superclass specializations to 'filterList' */ static void FilterComputeOrderFullList(Tcl_Interp *interp, NsfCmdList **filters, NsfCmdList **filterList) { NsfCmdList *f ; char *simpleName; NsfClass *fcl; NsfClasses *pl; /* * ensure that no epoched command is in the filters list */ CmdListRemoveEpoched(filters, GuardDel); for (f = *filters; f; f = f->nextPtr) { simpleName = (char *) Tcl_GetCommandName(interp, f->cmdPtr); fcl = f->clorobj; CmdListAdd(filterList, f->cmdPtr, fcl, /*noDuplicates*/ 0); if (fcl && !NsfObjectIsClass(&fcl->object)) { /* get the class from the object for per-object filter */ fcl = ((NsfObject *)fcl)->cl; } /* if we have a filter class -> search up the inheritance hierarchy*/ if (fcl) { pl = ComputeOrder(fcl, fcl->order, Super); if (pl && pl->nextPtr) { /* don't search on the start class again */ pl = pl->nextPtr; /* now go up the hierarchy */ for(; pl; pl = pl->nextPtr) { Tcl_Command pi = FindMethod(pl->cl->nsPtr, simpleName); if (pi) { CmdListAdd(filterList, pi, pl->cl, /*noDuplicates*/ 0); /* fprintf(stderr, " %s::%s, ", ObjStr(pl->cl->object.cmdName), simpleName); */ } } } } } /*CmdListPrint(interp, "FilterComputeOrderFullList....\n", *filterList);*/ } /* * Computes a linearized order of object and class filter. Then * duplicates in the full list and with the class inheritance list of * 'obj' are eliminated. The precendence rule is that the last * occurence makes it into the final list. */ static void FilterComputeOrder(Tcl_Interp *interp, NsfObject *object) { NsfCmdList *filterList = NULL, *next, *checker, *newlist; NsfClasses *pl; if (object->filterOrder) FilterResetOrder(object); /* fprintf(stderr, " List: ", objectName(object)); */ /* append classfilters registered for mixins */ if (!(object->flags & NSF_MIXIN_ORDER_VALID)) MixinComputeDefined(interp, object); if (object->flags & NSF_MIXIN_ORDER_DEFINED_AND_VALID) { NsfCmdList *ml; NsfClass *mixin; for (ml = object->mixinOrder; ml; ml = ml->nextPtr) { mixin = NsfGetClassFromCmdPtr(ml->cmdPtr); if (mixin && mixin->opt && mixin->opt->classfilters) FilterComputeOrderFullList(interp, &mixin->opt->classfilters, &filterList); } } /* append per-obj filters */ if (object->opt) FilterComputeOrderFullList(interp, &object->opt->filters, &filterList); /* append per-class filters */ for (pl = ComputeOrder(object->cl, object->cl->order, Super); pl; pl=pl->nextPtr) { NsfClassOpt *opt = pl->cl->opt; if (opt && opt->classfilters) { FilterComputeOrderFullList(interp, &opt->classfilters, &filterList); } } /* fprintf(stderr, "\n"); */ /* use no duplicates & no classes of the precedence order on the resulting list */ while (filterList) { checker = next = filterList->nextPtr; while (checker) { if (checker->cmdPtr == filterList->cmdPtr) break; checker = checker->nextPtr; } if (checker == NULL) { newlist = CmdListAdd(&object->filterOrder, filterList->cmdPtr, filterList->clorobj, /*noDuplicates*/ 0); GuardAddInheritedGuards(interp, newlist, object, filterList->cmdPtr); /* fprintf(stderr, " Adding %s::%s,\n", filterList->cmdPtr->nsPtr->fullName, Tcl_GetCommandName(interp, filterList->cmdPtr)); */ /* GuardPrint(interp, newlist->clientData); */ } CmdListDeleteCmdListEntry(filterList, GuardDel); filterList = next; } /* fprintf(stderr, "\n"); */ } /* * the filter order is either * DEFINED (there are filter on the instance), * NONE (there are no filter for the instance), * or INVALID (a class re-strucuturing has occured, thus it is not clear * whether filters are defined or not). * If it is INVALID FilterComputeDefined can be used to compute the order * and set the instance to DEFINE or NONE */ static void FilterComputeDefined(Tcl_Interp *interp, NsfObject *object) { FilterComputeOrder(interp, object); object->flags |= NSF_FILTER_ORDER_VALID; if (object->filterOrder) object->flags |= NSF_FILTER_ORDER_DEFINED; else object->flags &= ~NSF_FILTER_ORDER_DEFINED; } /* * push a filter stack information on this object */ static int FilterStackPush(Tcl_Interp *interp, NsfObject *object, Tcl_Obj *calledProc) { register NsfFilterStack *h = NEW(NsfFilterStack); h->currentCmdPtr = NULL; h->calledProc = calledProc; INCR_REF_COUNT(h->calledProc); h->nextPtr = object->filterStack; object->filterStack = h; return 1; } /* * pop a filter stack information on this object */ static void FilterStackPop(NsfObject *object) { register NsfFilterStack *h = object->filterStack; object->filterStack = h->nextPtr; /* free stack entry */ DECR_REF_COUNT(h->calledProc); FREE(NsfFilterStack, h); } /* * search through the filter list on obj and class hierarchy * for registration of a command ptr as filter * * returns a tcl obj list with the filter registration, like: * " filter , * " filter , * or an empty list, if not registered */ static Tcl_Obj * FilterFindReg(Tcl_Interp *interp, NsfObject *object, Tcl_Command cmd) { Tcl_Obj *list = Tcl_NewListObj(0, NULL); NsfClasses *pl; /* search per-object filters */ if (object->opt && CmdListFindCmdInList(cmd, object->opt->filters)) { Tcl_ListObjAppendElement(interp, list, object->cmdName); Tcl_ListObjAppendElement(interp, list, NsfGlobalObjs[NSF_OBJECT]); Tcl_ListObjAppendElement(interp, list, NsfGlobalObjs[NSF_FILTER]); Tcl_ListObjAppendElement(interp, list, Tcl_NewStringObj(Tcl_GetCommandName(interp, cmd), -1)); return list; } /* search per-class filters */ for (pl = ComputeOrder(object->cl, object->cl->order, Super); pl; pl = pl->nextPtr) { NsfClassOpt *opt = pl->cl->opt; if (opt && opt->classfilters) { if (CmdListFindCmdInList(cmd, opt->classfilters)) { Tcl_ListObjAppendElement(interp, list, pl->cl->object.cmdName); Tcl_ListObjAppendElement(interp, list, NsfGlobalObjs[NSF_FILTER]); Tcl_ListObjAppendElement(interp, list, Tcl_NewStringObj(Tcl_GetCommandName(interp, cmd), -1)); return list; } } } return list; } /* * before we can perform a filter dispatch, FilterSearchProc seeks the * current filter and the relevant calling information */ static Tcl_Command FilterSearchProc(Tcl_Interp *interp, NsfObject *object, Tcl_Command *currentCmd, NsfClass **cl) { NsfCmdList *cmdList; assert(object); assert(object->filterStack); *currentCmd = NULL; /* Ensure that the filter order is not invalid, otherwise compute order FilterComputeDefined(interp, object); */ assert(object->flags & NSF_FILTER_ORDER_VALID); cmdList = SeekCurrent(object->filterStack->currentCmdPtr, object->filterOrder); while (cmdList) { if (Tcl_Command_cmdEpoch(cmdList->cmdPtr)) { cmdList = cmdList->nextPtr; } else if (FilterActiveOnObj(interp, object, cmdList->cmdPtr)) { /* fprintf(stderr, "Filter <%s> -- Active on: %s\n", Tcl_GetCommandName(interp, (Tcl_Command)cmdList->cmdPtr), objectName(object)); */ object->filterStack->currentCmdPtr = cmdList->cmdPtr; cmdList = SeekCurrent(object->filterStack->currentCmdPtr, object->filterOrder); } else { /* ok. we found it */ if (cmdList->clorobj && !NsfObjectIsClass(&cmdList->clorobj->object)) { *cl = NULL; } else { *cl = cmdList->clorobj; } *currentCmd = cmdList->cmdPtr; /* fprintf(stderr, "FilterSearchProc - found: %s, %p\n", Tcl_GetCommandName(interp, (Tcl_Command)cmdList->cmdPtr), cmdList->cmdPtr); */ return cmdList->cmdPtr; } } return NULL; } static int SuperclassAdd(Tcl_Interp *interp, NsfClass *cl, int oc, Tcl_Obj **ov, Tcl_Obj *arg, NsfClass *baseClass) { NsfClasses *filterCheck, *osl = NULL; NsfClass **scl; int reversed = 0; int i, j; filterCheck = ComputeOrder(cl, cl->order, Super); /* * we have to remove all dependent superclass filter referenced * by class or one of its subclasses * * do not check the class "cl" itself (first entry in * filterCheck class list) */ if (filterCheck) filterCheck = filterCheck->nextPtr; for (; filterCheck; filterCheck = filterCheck->nextPtr) { FilterRemoveDependentFilterCmds(cl, filterCheck->cl); } /* invalidate all interceptors orders of instances of this and of all depended classes */ MixinInvalidateObjOrders(interp, cl); FilterInvalidateObjOrders(interp, cl); scl = NEW_ARRAY(NsfClass*, oc); for (i = 0; i < oc; i++) { if (GetClassFromObj(interp, ov[i], &scl[i], baseClass) != TCL_OK) { FREE(NsfClass**, scl); return NsfErrBadVal(interp, "superclass", "a list of classes", ObjStr(arg)); } } /* * check that superclasses don't precede their classes */ for (i = 0; i < oc; i++) { if (reversed) break; for (j = i+1; j < oc; j++) { NsfClasses *dl = ComputeOrder(scl[j], scl[j]->order, Super); if (reversed) break; while (dl) { if (dl->cl == scl[i]) break; dl = dl->nextPtr; } if (dl) reversed = 1; } } if (reversed) { return NsfErrBadVal(interp, "superclass", "classes in dependence order", ObjStr(arg)); } while (cl->super) { /* * build up an old superclass list in case we need to revert */ NsfClass *sc = cl->super->cl; NsfClasses *l = osl; osl = NEW(NsfClasses); osl->cl = sc; osl->nextPtr = l; (void)RemoveSuper(cl, cl->super->cl); } for (i=0; i < oc; i++) { AddSuper(cl, scl[i]); } FREE(NsfClass**, scl); FlushPrecedencesOnSubclasses(cl); if (!ComputeOrder(cl, cl->order, Super)) { /* * cycle in the superclass graph, backtrack */ NsfClasses *l; while (cl->super) (void)RemoveSuper(cl, cl->super->cl); for (l = osl; l; l = l->nextPtr) AddSuper(cl, l->cl); NsfClassListFree(osl); return NsfErrBadVal(interp, "superclass", "a cycle-free graph", ObjStr(arg)); } NsfClassListFree(osl); /* if there are no more super classes add the Object class as superclasses */ if (cl->super == NULL) { fprintf(stderr, "SuperClassAdd super of '%s' is NULL\n", className(cl)); /*AddSuper(cl, RUNTIME_STATE(interp)->theObject);*/ } Tcl_ResetResult(interp); return TCL_OK; } extern Tcl_Obj * Nsf_ObjSetVar2(Nsf_Object *object, Tcl_Interp *interp, Tcl_Obj *name1, Tcl_Obj *name2, Tcl_Obj *valueObj, int flgs) { Tcl_Obj *result; Tcl_CallFrame frame, *framePtr = &frame; Nsf_PushFrameObj(interp, (NsfObject*)object, framePtr); if (((NsfObject*)object)->nsPtr) flgs |= TCL_NAMESPACE_ONLY; result = Tcl_ObjSetVar2(interp, name1, name2, valueObj, flgs); Nsf_PopFrameObj(interp, framePtr); return result; } extern Tcl_Obj * Nsf_SetVar2Ex(Nsf_Object *object, Tcl_Interp *interp, CONST char *name1, CONST char *name2, Tcl_Obj *valueObj, int flgs) { Tcl_Obj *result; Tcl_CallFrame frame, *framePtr = &frame; Nsf_PushFrameObj(interp, (NsfObject*)object, framePtr); if (((NsfObject*)object)->nsPtr) flgs |= TCL_NAMESPACE_ONLY; result = Tcl_SetVar2Ex(interp, name1, name2, valueObj, flgs); Nsf_PopFrameObj(interp, framePtr); return result; } extern Tcl_Obj * NsfOSetInstVar(Nsf_Object *object, Tcl_Interp *interp, Tcl_Obj *nameObj, Tcl_Obj *valueObj, int flgs) { return Nsf_ObjSetVar2(object, interp, nameObj, (Tcl_Obj *)NULL, valueObj, (flgs|TCL_PARSE_PART1)); } extern Tcl_Obj * Nsf_ObjGetVar2(Nsf_Object *object, Tcl_Interp *interp, Tcl_Obj *name1, Tcl_Obj *name2, int flgs) { Tcl_Obj *result; Tcl_CallFrame frame, *framePtr = &frame; Nsf_PushFrameObj(interp, (NsfObject*)object, framePtr); if (((NsfObject*)object)->nsPtr) flgs |= TCL_NAMESPACE_ONLY; result = Tcl_ObjGetVar2(interp, name1, name2, flgs); Nsf_PopFrameObj(interp, framePtr); return result; } extern Tcl_Obj * Nsf_GetVar2Ex(Nsf_Object *object, Tcl_Interp *interp, CONST char *name1, CONST char *name2, int flgs) { Tcl_Obj *result; Tcl_CallFrame frame, *framePtr = &frame; Nsf_PushFrameObj(interp, (NsfObject*)object, framePtr); if (((NsfObject*)object)->nsPtr) flgs |= TCL_NAMESPACE_ONLY; result = Tcl_GetVar2Ex(interp, name1, name2, flgs); Nsf_PopFrameObj(interp, framePtr); return result; } Tcl_Obj * NsfOGetInstVar(Nsf_Object *object, Tcl_Interp *interp, Tcl_Obj *nameObj, int flgs) { return Nsf_ObjGetVar2(object, interp, nameObj, (Tcl_Obj *)NULL, (flgs|TCL_PARSE_PART1)); } int NsfUnsetInstVar(Nsf_Object *object, Tcl_Interp *interp, CONST char *name, int flgs) { return NsfUnsetInstVar2(object, interp, name, NULL, flgs); } static int CheckVarName(Tcl_Interp *interp, const char *varNameString) { /* * Check, whether the provided name is save to be used in the * resolver. We do not want to get interferences with namespace * resolver and such. In an first attempt, we disallowed occurances * of "::", but we have to deal as well with e.g. arrayName(::x::y) * * TODO: more general and efficient solution to disallow e.g. a::b * (check for :: until parens) */ /*if (strstr(varNameString, "::") || *varNameString == ':') {*/ if (*varNameString == ':') { return NsfVarErrMsg(interp, "variable name \"", varNameString, "\" must not contain namespace separator or colon prefix", (char *) NULL); } return TCL_OK; } static int VarExists(Tcl_Interp *interp, NsfObject *object, CONST char *varName, CONST char *index, int triggerTrace, int requireDefined) { Tcl_CallFrame frame, *framePtr = &frame; Var *varPtr, *arrayPtr; int result; int flags = 0; flags = (index == NULL) ? TCL_PARSE_PART1 : 0; Nsf_PushFrameObj(interp, object, framePtr); if (triggerTrace) varPtr = TclVarTraceExists(interp, varName); else varPtr = TclLookupVar(interp, varName, index, flags, "access", /*createPart1*/ 0, /*createPart2*/ 0, &arrayPtr); /* fprintf(stderr, "VarExists %s varPtr %p requireDefined %d, triggerTrace %d, isundef %d\n", varName, varPtr, requireDefined, triggerTrace, varPtr ? TclIsVarUndefined(varPtr) : NULL); */ result = (varPtr && (!requireDefined || !TclIsVarUndefined(varPtr))); Nsf_PopFrameObj(interp, framePtr); return result; } static int SubstValue(Tcl_Interp *interp, NsfObject *object, Tcl_Obj **value) { Tcl_Obj *ov[2]; int result; ov[1] = *value; Tcl_ResetResult(interp); result = Nsf_SubstObjCmd(NULL, interp, 2, ov); /*fprintf(stderr, "+++++ %s.%s subst returned %d OK %d\n", objectName(object), varName, rc, TCL_OK);*/ if (result == TCL_OK) { *value = Tcl_GetObjResult(interp); } return result; } #if defined(WITH_TCL_COMPILE) # include #endif static void MakeProcError( Tcl_Interp *interp, /* The interpreter in which the procedure was called. */ Tcl_Obj *procNameObj) /* Name of the procedure. Used for error * messages and trace information. */ { int overflow, limit = 60, nameLen; const char *procName; /*fprintf(stderr, "MakeProcError %p type %p refCount %d\n", procNameObj, procNameObj->typePtr, procNameObj->refCount);*/ procName = Tcl_GetStringFromObj(procNameObj, &nameLen); overflow = (nameLen > limit); Tcl_AppendObjToErrorInfo(interp, Tcl_ObjPrintf( "\n (procedure \"%.*s%s\" line %d)", (overflow ? limit : nameLen), procName, (overflow ? "..." : ""), Tcl_GetErrorLine(interp))); } static int ByteCompiled(register Tcl_Interp *interp, Proc *procPtr, CONST char *body) { Tcl_Obj *bodyPtr = procPtr->bodyPtr; Namespace *nsPtr = procPtr->cmdPtr->nsPtr; if (bodyPtr->typePtr == byteCodeType) { # if defined(HAVE_TCL_COMPILE_H) ByteCode *codePtr; Interp *iPtr = (Interp *) interp; /* * When we've got bytecode, this is the check for validity. That is, * the bytecode must be for the right interpreter (no cross-leaks!), * the code must be from the current epoch (so subcommand compilation * is up-to-date), the namespace must match (so variable handling * is right) and the resolverEpoch must match (so that new shadowed * commands and/or resolver changes are considered). */ codePtr = bodyPtr->internalRep.otherValuePtr; if (((Interp *) *codePtr->interpHandle != iPtr) || (codePtr->compileEpoch != iPtr->compileEpoch) || (codePtr->nsPtr != nsPtr) || (codePtr->nsEpoch != nsPtr->resolverEpoch)) { goto doCompilation; } return TCL_OK; # endif } else { # if defined(HAVE_TCL_COMPILE_H) doCompilation: # endif return TclProcCompileProc(interp, procPtr, bodyPtr, (Namespace *) nsPtr, "body of proc", body); } } /* PushProcCallFrame() compiles conditionally a proc and pushes a callframe. Interesting fields: clientData: Record describing procedure to be interpreted. isLambda: 1 if this is a call by ApplyObjCmd: it needs special rules for error msg */ static int PushProcCallFrame(ClientData clientData, register Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], NsfCallStackContent *cscPtr) { Proc *procPtr = (Proc *) clientData; CallFrame *framePtr; int result; /* * Set up and push a new call frame for the new procedure invocation. * This call frame will execute in the proc's namespace, which might be * different than the current namespace. The proc's namespace is that of * its command, which can change if the command is renamed from one * namespace to another. */ #if defined(TCL85STACK_TRACE) fprintf(stderr, "PUSH METHOD_FRAME (PushProcCallFrame) csc %p %s obj %s obj refcount %d\n", cscPtr, cscPtr ? Tcl_GetCommandName(interp, cscPtr->cmdPtr) : NULL, objectName(cscPtr->self), cscPtr && cscPtr->self->id ? Tcl_Command_refCount(cscPtr->self->id) : -100 ); #endif /* TODO: we could use Tcl_PushCallFrame(), if we would allocate the tcl stack frame earlier */ result = TclPushStackFrame(interp, (Tcl_CallFrame **)&framePtr, (Tcl_Namespace *) procPtr->cmdPtr->nsPtr, (FRAME_IS_PROC|FRAME_IS_NSF_METHOD)); if (result != TCL_OK) { return result; } framePtr->objc = objc; framePtr->objv = objv; framePtr->procPtr = procPtr; #if defined(TCL85STACK_TRACE) fprintf(stderr, " put csc %p into frame %p flags %.4x\n", cscPtr, framePtr, framePtr->isProcCallFrame); #endif framePtr->clientData = (ClientData)cscPtr; return ByteCompiled(interp, procPtr, TclGetString(objv[0])); } static void GetVarAndNameFromHash(Tcl_HashEntry *hPtr, Var **val, Tcl_Obj **varNameObj) { *val = VarHashGetValue(hPtr); *varNameObj = VarHashGetKey(*val); } void NsfProcDeleteProc(ClientData clientData) { NsfProcContext *ctxPtr = (NsfProcContext *)clientData; (*ctxPtr->oldDeleteProc)(ctxPtr->oldDeleteData); if (ctxPtr->paramDefs) { /*fprintf(stderr, "free ParamDefs %p\n", ctxPtr->paramDefs);*/ ParamDefsFree(ctxPtr->paramDefs); } /*fprintf(stderr, "free %p\n", ctxPtr);*/ FREE(NsfProcContext, ctxPtr); } static NsfParam * ParamsNew(int nr) { NsfParam *paramsPtr = NEW_ARRAY(NsfParam, nr+1); memset(paramsPtr, 0, sizeof(NsfParam)*(nr+1)); return paramsPtr; } static void ParamsFree(NsfParam *paramsPtr) { NsfParam *paramPtr; /*fprintf(stderr, "ParamsFree %p\n", paramsPtr);*/ for (paramPtr=paramsPtr; paramPtr->name; paramPtr++) { /*fprintf(stderr, ".... paramPtr = %p, name=%s, defaultValue %p\n", paramPtr, paramPtr->name, paramPtr->defaultValue);*/ if (paramPtr->name) ckfree(paramPtr->name); if (paramPtr->nameObj) {DECR_REF_COUNT(paramPtr->nameObj);} if (paramPtr->defaultValue) {DECR_REF_COUNT(paramPtr->defaultValue);} if (paramPtr->converterName) {DECR_REF_COUNT(paramPtr->converterName);} if (paramPtr->converterArg) {DECR_REF_COUNT(paramPtr->converterArg);} if (paramPtr->paramObj) {DECR_REF_COUNT(paramPtr->paramObj);} if (paramPtr->slotObj) {DECR_REF_COUNT(paramPtr->slotObj);} } FREE(NsfParam*, paramsPtr); } static NsfParamDefs * ParamDefsGet(Tcl_Command cmdPtr) { if (Tcl_Command_deleteProc(cmdPtr) == NsfProcDeleteProc) { return ((NsfProcContext *)Tcl_Command_deleteData(cmdPtr))->paramDefs; } return NULL; } static int ParamDefsStore(Tcl_Interp *interp, Tcl_Command cmd, NsfParamDefs *paramDefs) { Command *cmdPtr = (Command *)cmd; if (cmdPtr->deleteProc != NsfProcDeleteProc) { NsfProcContext *ctxPtr = NEW(NsfProcContext); /*fprintf(stderr, "paramDefsStore replace deleteProc %p by %p\n", cmdPtr->deleteProc, NsfProcDeleteProc);*/ ctxPtr->oldDeleteData = (Proc *)cmdPtr->deleteData; ctxPtr->oldDeleteProc = cmdPtr->deleteProc; cmdPtr->deleteProc = NsfProcDeleteProc; ctxPtr->paramDefs = paramDefs; cmdPtr->deleteData = (ClientData)ctxPtr; return TCL_OK; } else { /*fprintf(stderr, "paramDefsStore cmd %p has already NsfProcDeleteProc deleteData %p\n", cmd, cmdPtr->deleteData);*/ if (cmdPtr->deleteData) { NsfProcContext *ctxPtr = cmdPtr->deleteData; assert(ctxPtr->paramDefs == NULL); ctxPtr->paramDefs = paramDefs; } } return TCL_ERROR; } static NsfParamDefs * ParamDefsNew() { NsfParamDefs *paramDefs; paramDefs = NEW(NsfParamDefs); memset(paramDefs, 0, sizeof(NsfParamDefs)); /*fprintf(stderr, "ParamDefsNew %p\n", paramDefs);*/ return paramDefs; } static void ParamDefsFree(NsfParamDefs *paramDefs) { /*fprintf(stderr, "ParamDefsFree %p returns %p\n", paramDefs, paramDefs->returns);*/ if (paramDefs->paramsPtr) { ParamsFree(paramDefs->paramsPtr); } if (paramDefs->slotObj) {DECR_REF_COUNT(paramDefs->slotObj);} if (paramDefs->returns) {DECR_REF_COUNT(paramDefs->returns);} FREE(NsfParamDefs, paramDefs); } /* * Non Positional Parameter */ static void ParamDefsFormatOption(Tcl_Interp *interp, Tcl_Obj *nameStringObj, CONST char *option, int *colonWritten, int *firstOption) { if (!*colonWritten) { Tcl_AppendLimitedToObj(nameStringObj, ":", 1, INT_MAX, NULL); *colonWritten = 1; } if (*firstOption) { *firstOption = 0; } else { Tcl_AppendLimitedToObj(nameStringObj, ",", 1, INT_MAX, NULL); } Tcl_AppendLimitedToObj(nameStringObj, option, -1, INT_MAX, NULL); } static Tcl_Obj * ParamDefsFormat(Tcl_Interp *interp, NsfParam CONST *paramsPtr) { int first, colonWritten; Tcl_Obj *listObj = Tcl_NewListObj(0, NULL), *innerListObj, *nameStringObj; NsfParam CONST *pPtr; for (pPtr = paramsPtr; pPtr->name; pPtr++) { if (pPtr -> paramObj) { innerListObj = pPtr->paramObj; } else { /* We need this part only for C-defined parameter definitions, defined via genTclAPI. TODO: we could streamline this by defining as well C-API via the same syntax as for accepted for tcl obj types "nsfParam" */ int isNonpos = *pPtr->name == '-'; int outputRequired = (isNonpos && (pPtr->flags & NSF_ARG_REQUIRED)); int outputOptional = (!isNonpos && !(pPtr->flags & NSF_ARG_REQUIRED) && !pPtr->defaultValue && pPtr->converter != ConvertToNothing); first = 1; colonWritten = 0; nameStringObj = Tcl_NewStringObj(pPtr->name, -1); if (pPtr->type) { ParamDefsFormatOption(interp, nameStringObj, pPtr->type, &colonWritten, &first); } if (outputRequired) { ParamDefsFormatOption(interp, nameStringObj, "required", &colonWritten, &first); } else if (outputOptional) { ParamDefsFormatOption(interp, nameStringObj, "optional", &colonWritten, &first); } if ((pPtr->flags & NSF_ARG_SUBST_DEFAULT)) { ParamDefsFormatOption(interp, nameStringObj, "substdefault", &colonWritten, &first); } if ((pPtr->flags & NSF_ARG_ALLOW_EMPTY)) { ParamDefsFormatOption(interp, nameStringObj, "allowempty", &colonWritten, &first); } if ((pPtr->flags & NSF_ARG_IS_CONVERTER)) { ParamDefsFormatOption(interp, nameStringObj, "convert", &colonWritten, &first); } if ((pPtr->flags & NSF_ARG_INITCMD)) { ParamDefsFormatOption(interp, nameStringObj, "initcmd", &colonWritten, &first); } else if ((pPtr->flags & NSF_ARG_METHOD)) { ParamDefsFormatOption(interp, nameStringObj, "method", &colonWritten, &first); } else if ((pPtr->flags & NSF_ARG_NOARG)) { ParamDefsFormatOption(interp, nameStringObj, "noarg", &colonWritten, &first); } else if ((pPtr->flags & NSF_ARG_MULTIVALUED)) { ParamDefsFormatOption(interp, nameStringObj, "multivalued", &colonWritten, &first); } innerListObj = Tcl_NewListObj(0, NULL); Tcl_ListObjAppendElement(interp, innerListObj, nameStringObj); if (pPtr->defaultValue) { Tcl_ListObjAppendElement(interp, innerListObj, pPtr->defaultValue); } } Tcl_ListObjAppendElement(interp, listObj, innerListObj); } return listObj; } static Tcl_Obj * ParamDefsList(Tcl_Interp *interp, NsfParam CONST *paramsPtr) { Tcl_Obj *listObj = Tcl_NewListObj(0, NULL); NsfParam CONST *pPtr; for (pPtr = paramsPtr; pPtr->name; pPtr++) { Tcl_ListObjAppendElement(interp, listObj, pPtr->nameObj); } return listObj; } static Tcl_Obj * ParamDefsSyntax(Tcl_Interp *interp, NsfParam CONST *paramPtr) { Tcl_Obj *argStringObj = Tcl_NewStringObj("", 0); NsfParam CONST *pPtr; for (pPtr = paramPtr; pPtr->name; pPtr++) { if (pPtr != paramPtr) { Tcl_AppendLimitedToObj(argStringObj, " ", 1, INT_MAX, NULL); } if (pPtr->flags & NSF_ARG_REQUIRED) { Tcl_AppendLimitedToObj(argStringObj, pPtr->name, -1, INT_MAX, NULL); } else { Tcl_AppendLimitedToObj(argStringObj, "?", 1, INT_MAX, NULL); Tcl_AppendLimitedToObj(argStringObj, pPtr->name, -1, INT_MAX, NULL); if (pPtr->nrArgs >0) { Tcl_AppendLimitedToObj(argStringObj, " arg", 4, INT_MAX, NULL); } Tcl_AppendLimitedToObj(argStringObj, "?", 1, INT_MAX, NULL); } } /* caller has to decr */ return argStringObj; } static void ParsedParamFree(NsfParsedParam *parsedParamPtr) { /*fprintf(stderr, "ParsedParamFree %p, npargs %p\n", parsedParamPtr, parsedParamPtr->paramDefs);*/ if (parsedParamPtr->paramDefs) { ParamDefsFree(parsedParamPtr->paramDefs); } FREE(NsfParsedParam, parsedParamPtr); } /* * method dispatch */ #if defined(NRE) static int FinalizeProcMethod(ClientData data[], Tcl_Interp *interp, int result) { ParseContext *pcPtr = data[0]; NsfCallStackContent *cscPtr = data[1]; CONST char *methodName = data[2]; NsfObject *object = cscPtr->self; NsfObjectOpt *opt = object->opt; NsfParamDefs *paramDefs; int rc; /*fprintf(stderr, "---- FinalizeProcMethod result %d, csc %p, pcPtr %p, obj %p\n", result, cscPtr, pcPtr, object);*/ # if defined(TCL85STACK_TRACE) fprintf(stderr, "POP FRAME (implicit) csc %p obj %s obj refcount %d %d\n", cscPtr, objectName(object), obj->id ? Tcl_Command_refCount(object->id) : -100, obj->refCount ); # endif paramDefs = ParamDefsGet(cscPtr->cmdPtr); if (result == TCL_OK && paramDefs && paramDefs->returns) { Tcl_Obj *valueObj = Tcl_GetObjResult(interp); /*fprintf(stderr, "***** we have returns for method '%s' check %s, value %p\n", methodName, ObjStr(paramDefs->returns), valueObj);*/ result = ParameterCheck(interp, paramDefs->returns, valueObj, "return-value:", RUNTIME_STATE(interp)->doCheckResults, NULL); } if (opt && object->teardown && (opt->checkoptions & CHECK_POST)) { /* even, when the passed result != TCL_OK, run assertion to report * the highest possible method from the callstack (e.g. "set" would not * be very meaningful; however, do not flush a TCL_ERROR. */ rc = AssertionCheck(interp, object, cscPtr->cl, methodName, CHECK_POST); if (result == TCL_OK) { result = rc; } } if (pcPtr) { # if defined(TCL_STACK_ALLOC_TRACE) fprintf(stderr, "---- FinalizeProcMethod calls releasePc, stackFree %p\n", pcPtr); # endif ParseContextRelease(pcPtr); TclStackFree(interp, pcPtr); } # if defined(TCL_STACK_ALLOC_TRACE) fprintf(stderr, "---- FinalizeProcMethod calls pop, csc free %p method %s\n", cscPtr, methodName); # endif CscFinish(interp, cscPtr); TclStackFree(interp, cscPtr); return result; } #endif /* invoke a scripted method (with assertion checking) */ static int ProcMethodDispatch(ClientData cp, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], CONST char *methodName, NsfObject *object, NsfClass *cl, Tcl_Command cmdPtr, NsfCallStackContent *cscPtr) { int result, releasePc = 0; NsfObjectOpt *opt = object->opt; NsfParamDefs *paramDefs; #if defined(NRE) ParseContext *pcPtr = NULL; #else ParseContext pc, *pcPtr = &pc; #endif assert(object); assert(object->teardown); #if defined(TCL85STACK_TRACE) fprintf(stderr, "+++ ProcMethodDispatch %s, cscPtr %p, frametype %d, teardown %p\n", methodName, cscPtr, cscPtr->frameType, object->teardown); #endif /* * if this is a filter, check whether its guard applies, * if not: just step forward to the next filter */ if (cscPtr->frameType == NSF_CSC_TYPE_ACTIVE_FILTER) { NsfCmdList *cmdList; /* * seek cmd in obj's filterOrder */ assert(object->flags & NSF_FILTER_ORDER_VALID); /* otherwise: FilterComputeDefined(interp, object);*/ for (cmdList = object->filterOrder; cmdList && cmdList->cmdPtr != cmdPtr; cmdList = cmdList->nextPtr); if (cmdList) { /* * A filter was found, check whether it has a guard. */ result = GuardCall(object, cl, (Tcl_Command) cmdList->cmdPtr, interp, cmdList->clientData, cscPtr); if (result != TCL_OK) { /*fprintf(stderr, "Filter GuardCall in invokeProc returned %d\n", result);*/ if (result != TCL_ERROR) { /* * The guard failed (but no error); call "next", use the * actual objv's, not the callstack objv, since we may not * be in a method resulting in invalid callstackobjs. * * The call stack content is not jet pushed to the Tcl * stack, so we pass it here explicitly. */ /*fprintf(stderr, "... calling nextmethod cscPtr %p\n", cscPtr);*/ result = NsfNextMethod(object, interp, cl, methodName, objc, objv, /*useCallStackObjs*/ 0, cscPtr); /*fprintf(stderr, "... after nextmethod result %d\n", result);*/ } #if defined(NRE) # if defined(TCL_STACK_ALLOC_TRACE) fprintf(stderr, "---- GuardFailed calls pop, cscPtr free %p method %s\n", cscPtr, methodName); # endif CscFinish(interp, cscPtr); TclStackFree(interp, cscPtr); /* todo check mixin guards for same case? */ #endif return result; } } } if (opt && (opt->checkoptions & CHECK_PRE) && (result = AssertionCheck(interp, object, cl, methodName, CHECK_PRE)) == TCL_ERROR) { goto finish; } #ifdef DISPATCH_TRACE PrintCall(interp, "ProcMethodDispatch", objc, objv); fprintf(stderr, "\tproc=%s\n", Tcl_GetCommandName(interp, cmdPtr)); #endif /* If the method to be invoked has paramDefs, we have to call the argument parser with the argument definitions obtained from the proc context from the cmdPtr. */ paramDefs = ParamDefsGet(cmdPtr); /*Tcl_Command_deleteProc(cmdPtr) == NsfProcDeleteProc ? ((NsfProcContext *)Tcl_Command_deleteData(cmdPtr))->paramDefs : NULL;*/ if (paramDefs && paramDefs->paramsPtr) { #if defined(NRE) pcPtr = (ParseContext *) TclStackAlloc(interp, sizeof(ParseContext)); # if defined(TCL_STACK_ALLOC_TRACE) fprintf(stderr, "---- ParseContext alloc %p\n", pcPtr); # endif #endif result = ProcessMethodArguments(pcPtr, interp, object, 1, paramDefs, methodName, objc, objv); cscPtr->objc = objc; cscPtr->objv = (Tcl_Obj **)objv; if (result == TCL_OK) { releasePc = 1; result = PushProcCallFrame(cp, interp, pcPtr->objc, pcPtr->full_objv, cscPtr); } } else { result = PushProcCallFrame(cp, interp, objc, objv, cscPtr); } /* we could consider to run here ARG_METHOD or ARG_INITCMD if (result == TCL_OK) { } */ if (result != TCL_OK) { #if defined(NRE) if (pcPtr) TclStackFree(interp, pcPtr); # if defined(TCL_STACK_ALLOC_TRACE) fprintf(stderr, "---- ProcPrep fails and calls pop, cscPtr free %p method %s\n", cscPtr, methodName); # endif CscFinish(interp, cscPtr); TclStackFree(interp, cscPtr); #endif } /* * The stack frame is pushed, we could do something here before * running the byte code of the body. */ if (result == TCL_OK) { #if !defined(NRE) result = TclObjInterpProcCore(interp, objv[0], 1, &MakeProcError); if (releasePc) { ParseContextRelease(&pc); } #else { TEOV_callback *rootPtr = TOP_CB(interp); /*fprintf(stderr, "CALL TclNRInterpProcCore %s method '%s'\n", objectName(object), ObjStr(objv[0]));*/ Tcl_NRAddCallback(interp, FinalizeProcMethod, releasePc ? pcPtr : NULL, cscPtr, methodName, NULL); result = TclNRInterpProcCore(interp, objv[0], 1, &MakeProcError); /*fprintf(stderr, ".... run callbacks rootPtr = %p, result %d methodName %s\n", rootPtr, result, methodName);*/ result = TclNRRunCallbacks(interp, result, rootPtr, 0); /*fprintf(stderr, ".... run callbacks DONE result %d methodName %s\n", result, methodName);*/ } #endif } # if defined(TCL85STACK_TRACE) fprintf(stderr, "POP OBJECT_FRAME (implicit) frame %p cscPtr %p obj %s obj refcount %d %d\n", NULL, cscPtr, objectName(object), object->id ? Tcl_Command_refCount(object->id) : -100, object->refCount ); # endif #if defined(PRE86) # ifdef DISPATCH_TRACE PrintExit(interp, "ProcMethodDispatch", objc, objv, result); /* fprintf(stderr, " returnCode %d nsf rc %d\n", Tcl_Interp_returnCode(interp), result);*/ # endif if (result == TCL_OK && paramDefs && paramDefs->returns) { Tcl_Obj *valueObj = Tcl_GetObjResult(interp); /*fprintf(stderr, "***** we have returns for method '%s' check %s, value %p is shared %d\n", methodName, ObjStr(paramDefs->returns), valueObj, Tcl_IsShared(valueObj));*/ result = ParameterCheck(interp, paramDefs->returns, valueObj, "return-value:", RUNTIME_STATE(interp)->doCheckResults, NULL); } opt = object->opt; if (opt && object->teardown && (opt->checkoptions & CHECK_POST)) { int rc = AssertionCheck(interp, object, cscPtr->cl, methodName, CHECK_POST); /* don't clobber error codes */ if (result == TCL_OK) { result = rc; } } #endif finish: return result; } /* Invoke a method implemented as a cmd (with assertion checking) */ static int CmdMethodDispatch(ClientData cp, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], CONST char *methodName, NsfObject *object, Tcl_Command cmdPtr, NsfCallStackContent *cscPtr) { CheckOptions co; int result; Tcl_CallFrame frame, *framePtr = &frame; assert(object); assert(object->teardown); #if defined(TCL85STACK_TRACE) fprintf(stderr, "+++ CmdMethodDispatchCheck %s, obj %p %s, cscPtr %p, teardown %p\n", methodName, object, objectName(object), cscPtr, object->teardown); #endif /* fprintf(stderr, ".. calling cmd %s cscPtr %p\n", methodName, cscPtr);*/ if (object->opt) { co = object->opt->checkoptions; if ((co & CHECK_INVAR) && ((result = AssertionCheckInvars(interp, object, methodName, co)) == TCL_ERROR)) { goto finish; } } if (cscPtr) { /* We have a call stack content, but the following dispatch will * by itself not stack it; in order to get e.g. self working, we * have to stack at least an FRAME_IS_NSF_OBJECT. * TODO: maybe push should happen already before assertion checking, * but we have to check what happens in the finish target etc. */ /*fprintf(stderr, "Nsf_PushFrameCsc %s %s\n",objectName(object), methodName);*/ Nsf_PushFrameCsc(interp, cscPtr, framePtr); } #ifdef DISPATCH_TRACE PrintCall(interp, "CmdMethodDispatch cmd", objc, objv); fprintf(stderr, "\tcmd=%s\n", Tcl_GetCommandName(interp, cmdPtr)); #endif /*fprintf(stderr, "CmdDispatch obj %p %p %s\n", obj, methodName, methodName);*/ result = Tcl_NRCallObjProc(interp, Tcl_Command_objProc(cmdPtr), cp, objc, objv); #ifdef DISPATCH_TRACE PrintExit(interp, "CmdMethodDispatch cmd", objc, objv, result); #endif if (cscPtr) { Nsf_PopFrameCsc(interp, framePtr); } /* Reference counting in the calling ObjectDispatch() makes sure that obj->opt is still accessible even after "dealloc" */ if (object->opt) { co = object->opt->checkoptions; if ((co & CHECK_INVAR) && ((result = AssertionCheckInvars(interp, object, methodName, co)) == TCL_ERROR)) { goto finish; } } { NsfParamDefs *paramDefs = ParamDefsGet(cmdPtr); if (result == TCL_OK && paramDefs && paramDefs->returns) { Tcl_Obj *valueObj = Tcl_GetObjResult(interp); /* fprintf(stderr, "***** CMD we have returns for method '%s' check %s, value %p\n", methodName, ObjStr(paramDefs->returns), valueObj);*/ result = ParameterCheck(interp, paramDefs->returns, valueObj, "return-value:", RUNTIME_STATE(interp)->doCheckResults, NULL); } } finish: return result; } #if defined(NSF_PROFILE) static int MethodDispatch(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], Tcl_Command cmd, NsfObject *object, NsfClass *cl, CONST char *methodName, int frameType) { struct timeval trt; long int startUsec = (gettimeofday(&trt, NULL), trt.tv_usec), startSec = trt.tv_sec; result = __MethodDispatch__(clientData, interp, objc, objv, cmd, object, cl, methodName, frameType); NsfProfileEvaluateData(interp, startSec, startUsec, object, cl, methodName); return result; } # define MethodDispatch __MethodDispatch__ #endif #if 0 static Tcl_Obj * SubcmdObj(Tcl_Interp *interp, CONST char *start, size_t len) { Tcl_Obj *checker = Tcl_NewStringObj("sub=", 4); Tcl_AppendLimitedToObj(checker, start, len, INT_MAX, NULL); return checker; } #endif /* *---------------------------------------------------------------------- * DispatchDefaultMethod -- * * Dispatch the default method (when object is called without arguments) * in case the object system has it defined. * * Results: * result code. * * Side effects: * indirect affects by calling Tcl code * *---------------------------------------------------------------------- */ static int DispatchDefaultMethod(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { int result; Tcl_Obj *methodObj = NsfMethodObj(interp, (NsfObject *)clientData, NSF_o_defaultmethod_idx); if (methodObj) { Tcl_Obj *tov[2]; tov[0] = objv[0]; tov[1] = methodObj; result = ObjectDispatch(clientData, interp, 2, tov, NSF_CM_NO_UNKNOWN); } else { result = TCL_OK; } return result; } /* *---------------------------------------------------------------------- * DispatchDestroyMethod -- * * Dispatch the method "destroy" in case the object system has it * defined. During the final cleanup of the object system, the * destroy is called separately from deallocation. Normally, * Object.destroy() calls dealloc, which is responsible for the * physical deallocation. * * Results: * result code * * Side effects: * indirect affects by calling Tcl code * *---------------------------------------------------------------------- */ static int DispatchDestroyMethod(Tcl_Interp *interp, NsfObject *object, int flags) { int result; Tcl_Obj *methodObj; /* * Don't call destroy after exit handler started physical * destruction, or when it was called already before */ if (RUNTIME_STATE(interp)->exitHandlerDestroyRound == NSF_EXITHANDLER_ON_PHYSICAL_DESTROY || (object->flags & NSF_DESTROY_CALLED) ) return TCL_OK; /*fprintf(stderr, " DispatchDestroyMethod obj %p flags %.6x active %d\n", object, object->flags, object->activationCount);*/ PRINTOBJ("DispatchDestroyMethod", object); /* flag, that destroy was called and invoke the method */ object->flags |= NSF_DESTROY_CALLED; if (CallDirectly(interp, object, NSF_o_destroy_idx, &methodObj)) { result = NsfODestroyMethod(interp, object); } else { result = CallMethod(object, interp, methodObj, 2, 0, flags); } if (result != TCL_OK) { static char cmd[] = "puts stderr \"[self]: Error in method destroy\n\ $::errorCode $::errorInfo\""; Tcl_EvalEx(interp, cmd, -1, 0); if (++RUNTIME_STATE(interp)->errorCount > 20) Tcl_Panic("too many destroy errors occured. Endless loop?", NULL); } else { if (RUNTIME_STATE(interp)->errorCount > 0) RUNTIME_STATE(interp)->errorCount--; } #ifdef OBJDELETION_TRACE fprintf(stderr, "DispatchDestroyMethod for %p exit\n", object); #endif return result; } /* *---------------------------------------------------------------------- * DispatchUnknownMethod -- * * Dispatch the method "unknown" in case the object system has it * defined and the application program contains an unknown handler. * * Results: * result code * * Side effects: * indirect affects by calling Tcl code * *---------------------------------------------------------------------- */ static int DispatchUnknownMethod(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], Tcl_Obj *methodObj, int flags) { int result; NsfObject *object = (NsfObject*)clientData; Tcl_Obj *unknownObj = NsfMethodObj(interp, object, NSF_o_unknown_idx); if (unknownObj && methodObj != unknownObj && (flags & NSF_CM_NO_UNKNOWN) == 0) { /* * back off and try unknown; */ ALLOC_ON_STACK(Tcl_Obj*, objc+2, tov); /*fprintf(stderr, "calling unknown for %s %s, flgs=%02x,%02x isClass=%d %p %s objc %d\n", objectName(object), ObjStr(methodObj), flags, NSF_CM_NO_UNKNOWN, NsfObjectIsClass(object), object, objectName(object), objc);*/ tov[0] = object->cmdName; tov[1] = unknownObj; if (objc>0) { memcpy(tov+2, objv, sizeof(Tcl_Obj *)*(objc)); } flags &= ~NSF_CM_NO_SHIFT; result = ObjectDispatch(clientData, interp, objc+2, tov, flags | NSF_CM_NO_UNKNOWN); FREE_ON_STACK(Tcl_Obj*, tov); } else { /* no unknown called, this is the built-in unknown handler */ /*fprintf(stderr, "--- No unknown method Name %s objv[%d] %s\n", ObjStr(methodObj), 1, ObjStr(objv[1]));*/ result = NsfVarErrMsg(interp, objectName(object), ": unable to dispatch method '", ObjStr(objv[1]), "'", (char *) NULL); } return result; } /* * MethodDispatch() calls an Next Scripting method. It calls either a * Tcl-implemented method (via ProcMethodDispatch()) or a C-implemented * method (via CmdMethodDispatch()) and sets up stack and client data * accordingly. */ static int MethodDispatch(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], Tcl_Command cmd, NsfObject *object, NsfClass *cl, CONST char *methodName, int frameType) { ClientData cp = Tcl_Command_objClientData(cmd); NsfCallStackContent csc, *cscPtr; register Tcl_ObjCmdProc *proc = Tcl_Command_objProc(cmd); int result; assert (object->teardown); /*fprintf(stderr, "MethodDispatch method '%s' cmd %p cp=%p objc=%d\n", methodName, cmd, cp, objc);*/ if (proc == TclObjInterpProc) { /* The cmd is a scripted method */ #if defined(NRE) cscPtr = (NsfCallStackContent *) TclStackAlloc(interp, sizeof(NsfCallStackContent)); # if defined(TCL_STACK_ALLOC_TRACE) fprintf(stderr, "---- csc alloc %p method %s\n", cscPtr, methodName); # endif #else cscPtr = &csc; #endif CscInit(cscPtr, object, cl, cmd, frameType); result = ProcMethodDispatch(cp, interp, objc, objv, methodName, object, cl, cmd, cscPtr); #if defined(NRE) /* CscFinish() is performed by the callbacks or in error case base ProcMethodDispatch */ /*fprintf(stderr, "no pop for %s\n", methodName);*/ #else CscFinish(interp, cscPtr); #endif return result; } else if (cp || Tcl_Command_flags(cmd) & NSF_CMD_NONLEAF_METHOD) { /* The cmd has client data or is an aliased method */ cscPtr = &csc; /*fprintf(stderr, "we could stuff obj %p %s\n", object, objectName(object));*/ if (proc == NsfObjDispatch) { /* * invoke an aliased object via method interface */ NsfRuntimeState *rst = RUNTIME_STATE(interp); NsfObject *invokeObj = (NsfObject *)cp; if (invokeObj->flags & NSF_DELETED) { /* * When we try to call a deleted object, the cmd (alias) is * automatically removed. */ Tcl_DeleteCommandFromToken(interp, cmd); NsfCleanupObject(invokeObj); return NsfVarErrMsg(interp, "Trying to dispatch deleted object via method '", methodName, "'", (char *) NULL); } /* * The client data cp is still the obj of the called method, * i.e. self changes. In order to prevent this, we save the * actual object in the runtime state, flag ObjectDispatch via * NSF_CM_DELGATE to use it. */ rst->delegatee = object; if (objc < 2) { result = DispatchDefaultMethod(cp, interp, objc, objv); } else { #if 0 ALLOC_ON_STACK(Tcl_Obj*, objc, tov); memcpy(tov, objv, sizeof(Tcl_Obj *)*(objc)); tov[1] = SubcmdObj(interp, ObjStr(objv[1]), -1); INCR_REF_COUNT(tov[1]); result = ObjectDispatch(cp, interp, objc, tov, NSF_CM_DELGATE); DECR_REF_COUNT(tov[1]); #else NsfObject *self = (NsfObject *)cp; char *methodName = ObjStr(objv[1]); /*fprintf(stderr, "save self %p %s (ns %p) object %p %s\n", self, objectName(self), self->nsPtr, object, objectName(object));*/ if (self->nsPtr) { cmd = FindMethod(self->nsPtr, methodName); /*fprintf(stderr, "... method %p %s\n", cmd, methodName);*/ if (cmd) { result = MethodDispatch(object, interp, objc-1, objv+1, cmd, object, NULL, methodName, frameType); goto obj_dispatch_ok; } } result = DispatchUnknownMethod(self, interp, objc-1, objv+1, objv[1], NSF_CM_NO_OBJECT_METHOD); /* result = NsfVarErrMsg(interp, objectName(self), ": aaa unable to dispatch method '", methodName, "'", (char *) NULL); */ obj_dispatch_ok:; /*result = ObjectDispatch(cp, interp, objc, objv, NSF_CM_DELGATE);*/ #endif } return result; } else if (proc == NsfForwardMethod || proc == NsfObjscopedMethod || proc == NsfSetterMethod ) { TclCmdClientData *tcd = (TclCmdClientData *)cp; tcd->object = object; assert((CmdIsProc(cmd) == 0)); } else if (cp == (ClientData)NSF_CMD_NONLEAF_METHOD) { cp = clientData; assert((CmdIsProc(cmd) == 0)); } CscInit(cscPtr, object, cl, cmd, frameType); } else { /* * The cmd has no client data */ /*fprintf(stderr, "cmdMethodDispatch %s %s, nothing stacked\n",objectName(object), methodName);*/ return CmdMethodDispatch(clientData, interp, objc, objv, methodName, object, cmd, NULL); } result = CmdMethodDispatch(cp, interp, objc, objv, methodName, object, cmd, cscPtr); /* * Make sure, that csc is still in the scope; therefore, csc is * currently on the top scope of this function */ CscFinish(interp, cscPtr); return result; } NSF_INLINE static int ObjectDispatch(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], int flags) { register NsfObject *object = (NsfObject*)clientData; int result = TCL_OK, mixinStackPushed = 0, filterStackPushed = 0, unknown = 0, objflags, shift, frameType = NSF_CSC_TYPE_PLAIN; CONST char *methodName; NsfClass *cl = NULL; Tcl_Command cmd = NULL; NsfRuntimeState *rst = RUNTIME_STATE(interp); Tcl_Obj *cmdName = object->cmdName, *methodObj, *cmdObj; assert(objc>0); if (flags & NSF_CM_NO_SHIFT) { shift = 0; cmdObj = object->cmdName; methodObj = objv[0]; } else { assert(objc>1); shift = 1; cmdObj = objv[0]; methodObj = objv[1]; } methodName = ObjStr(methodObj); if (FOR_COLON_RESOLVER(methodName)) { methodName ++; } /*fprintf(stderr, "ObjectDispatch obj = %s objc = %d 0=%s methodName=%s\n", objectName(object), objc, ObjStr(cmdObj), methodName);*/ #ifdef DISPATCH_TRACE PrintCall(interp, "DISPATCH", objc, objv); #endif objflags = object->flags; /* avoid stalling */ /* make sure, cmdName and obj survive this method until the end */ INCR_REF_COUNT(cmdName); object->refCount ++; if (!(objflags & NSF_FILTER_ORDER_VALID)) { FilterComputeDefined(interp, object); objflags = object->flags; } if (!(objflags & NSF_MIXIN_ORDER_VALID)) { MixinComputeDefined(interp, object); objflags = object->flags; } /* Only start new filter chain, if (a) filters are defined and (b) the toplevel csc entry is not an filter on self */ /*fprintf(stderr, "call %s, objflags %.6x, defined and valid %.6x doFilters %d guard count %d\n", methodName, objflags, NSF_FILTER_ORDER_DEFINED_AND_VALID, rst->doFilters, rst->guardCount);*/ if (((objflags & NSF_FILTER_ORDER_DEFINED_AND_VALID) == NSF_FILTER_ORDER_DEFINED_AND_VALID) && rst->doFilters && !rst->guardCount) { NsfCallStackContent *cscPtr = CallStackGetTopFrame(interp, NULL); /*fprintf(stderr, "... check ok, cscPtr = %p\n", cscPtr); if (!cscPtr) { tcl85showStack(interp); }*/ if (!cscPtr || (object != cscPtr->self || cscPtr->frameType != NSF_CSC_TYPE_ACTIVE_FILTER)) { filterStackPushed = FilterStackPush(interp, object, methodObj); cmd = FilterSearchProc(interp, object, &object->filterStack->currentCmdPtr, &cl); if (cmd) { /*fprintf(stderr, "filterSearchProc returned cmd %p\n", cmd);*/ frameType = NSF_CSC_TYPE_ACTIVE_FILTER; methodName = (char *)Tcl_GetCommandName(interp, cmd); } else { /*fprintf(stderr, "filterSearchProc returned no cmd\n");*/ FilterStackPop(object); filterStackPushed = 0; } } } /* check if a mixin is to be called. don't use mixins on next method calls, since normally it is not intercepted (it is used as a primitive command). don't use mixins on init calls, since init is invoked on mixins during mixin registration (in NsfOMixinMethod) */ if ((objflags & NSF_MIXIN_ORDER_DEFINED_AND_VALID) == NSF_MIXIN_ORDER_DEFINED_AND_VALID) { mixinStackPushed = MixinStackPush(object); if (frameType != NSF_CSC_TYPE_ACTIVE_FILTER) { result = MixinSearchProc(interp, object, methodName, &cl, &object->mixinStack->currentCmdPtr, &cmd); if (result != TCL_OK) { goto exit_dispatch; } if (cmd) { frameType = NSF_CSC_TYPE_ACTIVE_MIXIN; } else { /* the else branch could be deleted */ MixinStackPop(object); mixinStackPushed = 0; } } } /* check if an absolute method name was provided */ if (*methodName == ':') { cmd = Tcl_GetCommandFromObj(interp, methodObj); if (cmd) { CONST char *mn = Tcl_GetCommandName(interp, cmd); if (IsClassNsName(methodName)) { CONST char *className = NSCutNsfClasses(methodName); Tcl_DString ds, *dsPtr = &ds; DSTRING_INIT(dsPtr); Tcl_DStringAppend(dsPtr, className, strlen(className)-strlen(mn)-2); cl = (NsfClass *)GetObjectFromString(interp, Tcl_DStringValue(dsPtr)); DSTRING_FREE(dsPtr); } } } /* if no filter/mixin is found => do ordinary method lookup */ if (cmd == NULL) { /* do we have a object-specific proc? */ if (object->nsPtr && (flags & NSF_CM_NO_OBJECT_METHOD) == 0) { cmd = FindMethod(object->nsPtr, methodName); /* fprintf(stderr, "lookup for proc in obj %p method %s nsPtr %p => %p\n", object, methodName, object->nsPtr, cmd);*/ } /*fprintf(stderr, "findMethod for proc '%s' in %p returned %p\n", methodName, object->nsPtr, cmd);*/ if (cmd == NULL) { /* check for a method */ NsfClass *currentClass = object->cl; if (currentClass->order == NULL) currentClass->order = TopoOrder(currentClass, Super); cl = SearchPLMethod(currentClass->order, methodName, &cmd); } } if (cmd) { result = TCL_OK; /*fprintf(stderr, "cmd %p %s flags %x\n", cmd, methodName, ((Command *) cmd)->flags && 0x00010000);*/ /* check, whether we have a protected method, and whether the protected method, called on a different object. In this case, we call as well the unknown method */ if ((Tcl_Command_flags(cmd) & NSF_CMD_PROTECTED_METHOD) && (flags & (NSF_CM_NO_UNKNOWN|NSF_CM_NO_PROTECT)) == 0) { NsfObject *o, *lastSelf = GetSelfObj(interp); /* we do not want to rely on clientData, so get obj from cmdObj */ GetObjectFromObj(interp, cmdObj, &o); if (o != lastSelf) { /*fprintf(stderr, "+++ protected method %s is not invoked\n", methodName);*/ /* allow unknown-handler to handle this case */ unknown = 1; fprintf(stderr, "+++ %s is protected, therefore maybe unknown %p %s lastself=%p o=%p cd %p flags = %.6x\n", methodName, cmdObj, ObjStr(cmdObj), lastSelf, o, clientData, flags); /*tcl85showStack(interp);*/ } } if (!unknown) { if (flags & NSF_CM_DELGATE && rst->delegatee) { /* * We want to execute the method on the delegatee, so we have * to flip the object. * * Note: there is a object->refCount ++; at the begin of this * function and a NsfCleanupObject(object) at the end. So, * we have to keep track of the refcounts here. Either mangle * refcounts, or save originator. * */ result = MethodDispatch(rst->delegatee, interp, objc-shift, objv+shift, cmd, rst->delegatee, cl, methodName, frameType); } else { result = MethodDispatch(clientData, interp, objc-shift, objv+shift, cmd, object, cl, methodName, frameType); } /*fprintf(stderr, "MethodDispatch %s returns %d unknown %d\n", methodName, result, rst->unknown);*/ if (result == TCL_ERROR) { /*fprintf(stderr, "Call ErrInProc cl = %p, cmd %p, flags %.6x\n", cl, cl ? cl->object.id : NULL, cl ? cl->object.flags : 0);*/ result = NsfErrInProc(interp, cmdName, cl && cl->object.teardown ? cl->object.cmdName : NULL, methodName); } if (rst->unknown && (frameType & NSF_CSC_TYPE_ACTIVE_FILTER)) { /*fprintf(stderr, "use saved unknown %d frameType %.6x\n", RUNTIME_STATE(interp)->unknown, frameType);*/ unknown = 1; } else { unknown = 0; } } } else { unknown = 1; } /* fprintf(stderr, "cmd %p unknown %d result %d\n", cmd, unknown, result);*/ if (result == TCL_OK) { /*fprintf(stderr, "after doCallProcCheck unknown == %d\n", unknown);*/ if (unknown) { result = DispatchUnknownMethod(clientData, interp, objc-shift, objv+shift, methodObj, flags); } } /* be sure to reset unknown flag */ if (unknown && (frameType & NSF_CSC_TYPE_ACTIVE_FILTER) == 0) { /*fprintf(stderr, "**** rst->unknown set to 0 flags %.6x frameType %.6x\n",flags,frameType);*/ rst->unknown = 0; } exit_dispatch: #ifdef DISPATCH_TRACE PrintExit(interp, "DISPATCH", objc, objv, result); #endif if (mixinStackPushed && object->mixinStack) MixinStackPop(object); if (filterStackPushed && object->filterStack) FilterStackPop(object); NsfCleanupObject(object); /*fprintf(stderr, "ObjectDispatch call NsfCleanupObject %p DONE\n", object);*/ DECR_REF_COUNT(cmdName); /* must be after last dereferencing of obj */ return result; } int NsfObjDispatch(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { int result; #ifdef STACK_TRACE NsfStackDump(interp); #endif #ifdef CALLSTACK_TRACE NsfCallStackDump(interp); #endif if (objc > 1) { /* normal dispatch */ result = ObjectDispatch(clientData, interp, objc, objv, 0); } else { result = DispatchDefaultMethod(clientData, interp, objc, objv); } return result; } /* * Proc-Creation */ static Tcl_Obj * AddPrefixToBody(Tcl_Obj *body, int paramDefs, NsfParsedParam *paramPtr) { Tcl_Obj *resultBody = Tcl_NewStringObj("", 0); INCR_REF_COUNT(resultBody); if (paramDefs && paramPtr->possibleUnknowns > 0) Tcl_AppendStringsToObj(resultBody, "::nsf::unsetUnknownArgs\n", (char *) NULL); Tcl_AppendStringsToObj(resultBody, ObjStr(body), (char *) NULL); return resultBody; } #define NEW_STRING(target, p, l) target = ckalloc(l+1); strncpy(target, p, l); *((target)+l) = '\0' NSF_INLINE static int NoMetaChars(CONST char *pattern) { register char c; CONST char *p = pattern; assert(pattern); for (c=*p; c; c = *++p) { if (c == '*' || c == '?' || c == '[') { return 0; } } return 1; } /* * type converter */ /* we could define parameterTypes with a converter, setter, canCheck, name */ static int ConvertToString(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { *clientData = (char *)ObjStr(objPtr); *outObjPtr = objPtr; return TCL_OK; } enum stringTypeIdx {StringTypeAlnum, StringTypeAlpha, StringTypeAscii, StringTypeBoolean, StringTypeControl, StringTypeDigit, StringTypeDouble, StringTypeFalse,StringTypeGraph, StringTypeInteger, StringTypeLower, StringTypePrint, StringTypePunct, StringTypeSpace, StringTypeTrue, StringTypeUpper, StringTypeWordchar, StringTypeXdigit }; static CONST char *stringTypeOpts[] = {"alnum", "alpha", "ascii", "boolean", "control", "digit", "double", "false", "graph", "integer", "lower", "print", "punct", "space", "true", "upper", "wordchar", "xdigit", NULL}; static int ConvertToTclobj(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { Tcl_Obj *objv[3]; int result; if (pPtr->converterArg) { /*fprintf(stderr, "ConvertToStringType %s (must be %s)\n", ObjStr(objPtr), ObjStr(pPtr->converterArg));*/ objv[1] = pPtr->converterArg; objv[2] = objPtr; result = NsfCallCommand(interp, NSF_IS, 3, objv); if (result == TCL_OK) { int success; Tcl_GetIntFromObj(interp, Tcl_GetObjResult(interp), &success); if (success == 1) { *clientData = (ClientData)objPtr; } else { result = NsfVarErrMsg(interp, "expected ", ObjStr(pPtr->converterArg), " but got \"", ObjStr(objPtr), "\" for parameter ", pPtr->name, NULL); } } } else { *clientData = (ClientData)objPtr; result = TCL_OK; } *outObjPtr = objPtr; return result; } static int ConvertToNothing(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { *outObjPtr = objPtr; return TCL_OK; } static int ConvertToBoolean(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { int result, bool; result = Tcl_GetBooleanFromObj(interp, objPtr, &bool); if (result == TCL_OK) { *clientData = (ClientData)INT2PTR(bool); } else { NsfVarErrMsg(interp, "expected boolean value but got \"", ObjStr(objPtr), "\" for parameter ", pPtr->name, NULL); } *outObjPtr = objPtr; return result; } static int ConvertToInteger(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { int result, i; result = Tcl_GetIntFromObj(interp, objPtr, &i); if (result == TCL_OK) { *clientData = (ClientData)INT2PTR(i); *outObjPtr = objPtr; } else { NsfVarErrMsg(interp, "expected integer but got \"", ObjStr(objPtr), "\" for parameter ", pPtr->name, NULL); } return result; } static int ConvertToSwitch(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { return ConvertToBoolean(interp, objPtr, pPtr, clientData, outObjPtr); } static int IsObjectOfType(Tcl_Interp *interp, NsfObject *object, CONST char *what, Tcl_Obj *objPtr, NsfParam CONST *pPtr) { NsfClass *cl; Tcl_DString ds, *dsPtr = &ds; if (pPtr->converterArg == NULL) return TCL_OK; if ((GetClassFromObj(interp, pPtr->converterArg, &cl, NULL) == TCL_OK) && IsSubType(object->cl, cl)) { return TCL_OK; } DSTRING_INIT(dsPtr); Tcl_DStringAppend(dsPtr, what, -1); Tcl_DStringAppend(dsPtr, " of type ", -1); Tcl_DStringAppend(dsPtr, ObjStr(pPtr->converterArg), -1); NsfObjErrType(interp, objPtr, Tcl_DStringValue(dsPtr), pPtr->name); DSTRING_FREE(dsPtr); return TCL_ERROR; } static int ConvertToObject(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { *outObjPtr = objPtr; if (GetObjectFromObj(interp, objPtr, (NsfObject **)clientData) == TCL_OK) { return IsObjectOfType(interp, (NsfObject *)*clientData, "object", objPtr, pPtr); } return NsfObjErrType(interp, objPtr, "object", pPtr->name); } static int ConvertToClass(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { *outObjPtr = objPtr; if (GetClassFromObj(interp, objPtr, (NsfClass **)clientData, NULL) == TCL_OK) { return IsObjectOfType(interp, (NsfObject *)*clientData, "class", objPtr, pPtr); } return NsfObjErrType(interp, objPtr, "class", pPtr->name); } static int ConvertToRelation(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { /* NsfRelationCmd is the real setter, which checks the values according to the relation type (Class, List of Class, list of filters; we treat it here just like a tclobj */ *clientData = (ClientData)objPtr; *outObjPtr = objPtr; return TCL_OK; } static int ConvertViaCmd(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { Tcl_Obj *ov[5]; Tcl_Obj *savedResult; int result, oc; /* * In general, when the converter is used e.g. for result checking, * we do not want to alter the result just when the converter sets a * result. So, for non-converter, we save the old result and restore * it before the return in case of success. Strictly speaking, * result-overwritng just harms for result-converters, but saving is * always semantic correct. */ if ((pPtr->flags & NSF_ARG_IS_CONVERTER) == 0) { savedResult = Tcl_GetObjResult(interp); /* save the result */ INCR_REF_COUNT(savedResult); } else { savedResult = NULL; } ov[0] = pPtr->slotObj ? pPtr->slotObj : NsfGlobalObjs[NSF_METHOD_PARAMETER_SLOT_OBJ]; ov[1] = pPtr->converterName; ov[2] = pPtr->nameObj; ov[3] = objPtr; /*fprintf(stderr, "ConvertViaCmd call converter %s (refCount %d) on %s paramPtr %p\n", ObjStr(pPtr->converterName), pPtr->converterName->refCount, ObjStr(ov[0]), pPtr);*/ oc = 4; if (pPtr->converterArg) { ov[4] = pPtr->converterArg; oc++; } INCR_REF_COUNT(ov[1]); INCR_REF_COUNT(ov[2]); result = Tcl_EvalObjv(interp, oc, ov, 0); DECR_REF_COUNT(ov[1]); DECR_REF_COUNT(ov[2]); /* per default, the input arg is the output arg */ *outObjPtr = objPtr; if (result == TCL_OK) { /*fprintf(stderr, "ConvertViaCmd could convert %s to '%s' paramPtr %p, is_converter %d\n", ObjStr(objPtr), ObjStr(Tcl_GetObjResult(interp)),pPtr, pPtr->flags & NSF_ARG_IS_CONVERTER);*/ if (pPtr->flags & NSF_ARG_IS_CONVERTER) { /* * If we want to convert, the resulting obj is the result of the * converter. incr refCount is necessary e.g. for e.g. * return [expr {$value + 1}] */ *outObjPtr = Tcl_GetObjResult(interp); INCR_REF_COUNT(*outObjPtr); } *clientData = (ClientData) *outObjPtr; if (savedResult) { /*fprintf(stderr, "restore savedResult %p\n", savedResult);*/ Tcl_SetObjResult(interp, savedResult); /* restore the result */ } } if (savedResult) { DECR_REF_COUNT(savedResult); } return result; } static int ConvertToObjpattern(Tcl_Interp *interp, Tcl_Obj *objPtr, NsfParam CONST *pPtr, ClientData *clientData, Tcl_Obj **outObjPtr) { Tcl_Obj *patternObj = objPtr; CONST char *pattern = ObjStr(objPtr); if (NoMetaChars(pattern)) { /* we have no meta characters, we try to check for an existing object */ NsfObject *object = NULL; GetObjectFromObj(interp, objPtr, &object); if (object) { patternObj = object->cmdName; } } else { /* * We have a pattern and meta characters, we might have * to prefix it to ovoid abvious errors: since all object * names are prefixed with ::, we add this prefix automatically * to the match pattern, if it does not exist */ if (*pattern != ':' && *pattern+1 != ':') { patternObj = Tcl_NewStringObj("::", 2); Tcl_AppendLimitedToObj(patternObj, pattern, -1, INT_MAX, NULL); } } if (patternObj) { INCR_REF_COUNT(patternObj); } *clientData = (ClientData)patternObj; *outObjPtr = objPtr; return TCL_OK; } static Tcl_Obj * ParamCheckObj(Tcl_Interp *interp, CONST char *start, size_t len) { Tcl_Obj *checker = Tcl_NewStringObj("type=", 5); Tcl_AppendLimitedToObj(checker, start, len, INT_MAX, NULL); return checker; } static int ParamOptionSetConverter(Tcl_Interp *interp, NsfParam *paramPtr, CONST char *typeName, NsfTypeConverter *converter) { if (paramPtr->converter) { return NsfVarErrMsg(interp, "Refuse to redefine parameter converter to use ", typeName, (char *) NULL); } paramPtr->converter = converter; paramPtr->nrArgs = 1; paramPtr->type = typeName; return TCL_OK; } static int ParamOptionParse(Tcl_Interp *interp, CONST char *option, size_t length, int disallowedOptions, NsfParam *paramPtr) { int result = TCL_OK; /*fprintf(stderr, "ParamOptionParse name %s, option '%s' (%d) disallowed %.6x\n", paramPtr->name, option, length, disallowedOptions);*/ if (strncmp(option, "required", MAX(3,length)) == 0) { paramPtr->flags |= NSF_ARG_REQUIRED; } else if (strncmp(option, "optional", MAX(3,length)) == 0) { paramPtr->flags &= ~NSF_ARG_REQUIRED; } else if (strncmp(option, "substdefault", 12) == 0) { paramPtr->flags |= NSF_ARG_SUBST_DEFAULT; } else if (strncmp(option, "allowempty", 10) == 0) { paramPtr->flags |= NSF_ARG_ALLOW_EMPTY; } else if (strncmp(option, "convert", 7) == 0) { paramPtr->flags |= NSF_ARG_IS_CONVERTER; } else if (strncmp(option, "initcmd", 7) == 0) { paramPtr->flags |= NSF_ARG_INITCMD; } else if (strncmp(option, "method", 6) == 0) { paramPtr->flags |= NSF_ARG_METHOD; } else if (strncmp(option, "multivalued", 11) == 0) { if ((paramPtr->flags & (NSF_ARG_INITCMD|NSF_ARG_RELATION|NSF_ARG_METHOD|NSF_ARG_SWITCH)) != 0) return NsfVarErrMsg(interp, "option multivalued not allowed for \"initcmd\", \"method\", \"relation\" or \"switch\"\n", (char *) NULL); paramPtr->flags |= NSF_ARG_MULTIVALUED; } else if (strncmp(option, "noarg", 5) == 0) { if ((paramPtr->flags & NSF_ARG_METHOD) == 0) { return NsfVarErrMsg(interp, "option noarg only allowed for parameter type \"method\"", (char *) NULL); } paramPtr->flags |= NSF_ARG_NOARG; paramPtr->nrArgs = 0; } else if (length >= 4 && strncmp(option, "arg=", 4) == 0) { if ((paramPtr->flags & (NSF_ARG_METHOD|NSF_ARG_RELATION)) == 0 && paramPtr->converter != ConvertViaCmd) return NsfVarErrMsg(interp, "option arg= only allowed for \"method\", \"relation\" or \"user-defined converter\"", (char *) NULL); paramPtr->converterArg = Tcl_NewStringObj(option+4, length-4); INCR_REF_COUNT(paramPtr->converterArg); } else if (strncmp(option, "switch", 6) == 0) { result = ParamOptionSetConverter(interp, paramPtr, "switch", ConvertToSwitch); paramPtr->flags |= NSF_ARG_SWITCH; paramPtr->nrArgs = 0; assert(paramPtr->defaultValue == NULL); paramPtr->defaultValue = Tcl_NewBooleanObj(0); INCR_REF_COUNT(paramPtr->defaultValue); } else if (strncmp(option, "integer", MAX(3,length)) == 0) { result = ParamOptionSetConverter(interp, paramPtr, "integer", ConvertToInteger); } else if (strncmp(option, "boolean", 7) == 0) { result = ParamOptionSetConverter(interp, paramPtr, "boolean", ConvertToBoolean); } else if (strncmp(option, "object", 6) == 0) { result = ParamOptionSetConverter(interp, paramPtr, "object", ConvertToObject); } else if (strncmp(option, "class", 5) == 0) { result = ParamOptionSetConverter(interp, paramPtr, "class", ConvertToClass); } else if (strncmp(option, "relation", 8) == 0) { result = ParamOptionSetConverter(interp, paramPtr, "relation", ConvertToRelation); paramPtr->flags |= NSF_ARG_RELATION; /*paramPtr->type = "tclobj";*/ } else if (length >= 6 && strncmp(option, "type=", 5) == 0) { if (paramPtr->converter != ConvertToObject && paramPtr->converter != ConvertToClass) return NsfVarErrMsg(interp, "option type= only allowed for object or class", (char *) NULL); paramPtr->converterArg = Tcl_NewStringObj(option+5, length-5); INCR_REF_COUNT(paramPtr->converterArg); } else if (length >= 6 && strncmp(option, "slot=", 5) == 0) { paramPtr->slotObj = Tcl_NewStringObj(option+5, length-5); INCR_REF_COUNT(paramPtr->slotObj); } else { int i, found = -1; for (i=0; stringTypeOpts[i]; i++) { /* Do not allow abbreviations, so the additional strlen checks for a full match */ if (strncmp(option, stringTypeOpts[i], length) == 0 && strlen(stringTypeOpts[i]) == length) { found = i; break; } } if (found > -1) { /* converter is stringType */ result = ParamOptionSetConverter(interp, paramPtr, "stringtype", ConvertToTclobj); paramPtr->converterArg = Tcl_NewStringObj(stringTypeOpts[i], -1); INCR_REF_COUNT(paramPtr->converterArg); } else { /* must be a converter defined via method */ paramPtr->converterName = ParamCheckObj(interp, option, length); INCR_REF_COUNT(paramPtr->converterName); result = ParamOptionSetConverter(interp, paramPtr, ObjStr(paramPtr->converterName), ConvertViaCmd); } } if ((paramPtr->flags & disallowedOptions)) { return NsfVarErrMsg(interp, "Parameter option '", option, "' not allowed", (char *) NULL); } return result; } static int ParamParse(Tcl_Interp *interp, CONST char *procName, Tcl_Obj *arg, int disallowedFlags, NsfParam *paramPtr, int *possibleUnknowns, int *plainParams) { int result, npac, isNonposArgument; size_t nameLength, length, j; CONST char *argString, *argName; Tcl_Obj **npav; paramPtr->paramObj = arg; INCR_REF_COUNT(paramPtr->paramObj); result = Tcl_ListObjGetElements(interp, arg, &npac, &npav); if (result != TCL_OK || npac < 1 || npac > 2) { return NsfVarErrMsg(interp, "wrong # of elements in parameter definition for method ", procName, " (should be 1 or 2 list elements): ", ObjStr(arg), (char *) NULL); } argString = ObjStr(npav[0]); length = strlen(argString); isNonposArgument = *argString == '-'; if (isNonposArgument) { argName = argString+1; nameLength = length-1; paramPtr->nrArgs = 1; /* per default 1 argument, switches set their arg numbers */ } else { argName = argString; nameLength = length; paramPtr->flags |= NSF_ARG_REQUIRED; /* positional arguments are required unless we have a default */ } /* fprintf(stderr, "... parsing '%s', name '%s' \n", ObjStr(arg), argName);*/ /* find the first ':' */ for (j=0; jname, argString, j); paramPtr->nameObj = Tcl_NewStringObj(argName, isNonposArgument ? j-1 : j); INCR_REF_COUNT(paramPtr->nameObj); /* skip space at begin */ for (start = j+1; start0 && isspace((int)argString[end-1]); end--); result = ParamOptionParse(interp, argString+start, end-start, disallowedFlags, paramPtr); if (result != TCL_OK) { goto param_error; } l++; /* skip space from begin */ for (start = l; start0 && isspace((int)argString[end-1]); end--); /* process last option */ result = ParamOptionParse(interp, argString+start, end-start, disallowedFlags, paramPtr); if (result != TCL_OK) { goto param_error; } } else { /* no ':', the whole arg is the name, we have not options */ NEW_STRING(paramPtr->name, argString, length); if (isNonposArgument) { paramPtr->nameObj = Tcl_NewStringObj(argName, length-1); } else { (*plainParams) ++; paramPtr->nameObj = Tcl_NewStringObj(argName, length); } INCR_REF_COUNT(paramPtr->nameObj); } /* if we have two arguments in the list, the second one is a default value */ if (npac == 2) { if (disallowedFlags & NSF_ARG_HAS_DEFAULT) { NsfVarErrMsg(interp, "parameter \"", argString, "\" is not allowed to have default \"", ObjStr(npav[1]), "\"", (char *) NULL); goto param_error; } /* if we have for some reason already a default value, free it */ if (paramPtr->defaultValue) { DECR_REF_COUNT(paramPtr->defaultValue); } paramPtr->defaultValue = Tcl_DuplicateObj(npav[1]); INCR_REF_COUNT(paramPtr->defaultValue); /* * The argument will be not required for an invocation, since we * have a default. */ paramPtr->flags &= ~NSF_ARG_REQUIRED; } else if (paramPtr->flags & NSF_ARG_SUBST_DEFAULT) { NsfVarErrMsg(interp, "parameter option substdefault specified for parameter \"", paramPtr->name, "\" without default value", (char *) NULL); goto param_error; } /* postprocessing the parameter options */ if (paramPtr->converter == NULL) { /* ConvertToTclobj() is the default converter */ paramPtr->converter = ConvertToTclobj; } /*else if (paramPtr->converter == ConvertViaCmd) {*/ if ((paramPtr->slotObj || paramPtr->converter == ConvertViaCmd) && paramPtr->type) { Tcl_Obj *converterNameObj; CONST char *converterNameString; NsfObject *paramObj; NsfClass *pcl; Tcl_Command cmd; result = GetObjectFromObj(interp, paramPtr->slotObj ? paramPtr->slotObj : NsfGlobalObjs[NSF_METHOD_PARAMETER_SLOT_OBJ], ¶mObj); if (result != TCL_OK) return result; if (paramPtr->converterName == NULL) { converterNameObj = ParamCheckObj(interp, paramPtr->type, strlen(paramPtr->type)); INCR_REF_COUNT(converterNameObj); } else { converterNameObj = paramPtr->converterName; } converterNameString = ObjStr(converterNameObj); cmd = ObjectFindMethod(interp, paramObj, converterNameString, &pcl); if (cmd == NULL) { if (paramPtr->converter == ConvertViaCmd) { fprintf(stderr, "**** could not find checker method %s defined on %s\n", converterNameString, objectName(paramObj)); paramPtr->flags |= NSF_ARG_CURRENTLY_UNKNOWN; /* TODO: for the time being, we do not return an error here */ } } else if (paramPtr->converter != ConvertViaCmd && strcmp(ObjStr(paramPtr->slotObj), NsfGlobalStrings[NSF_METHOD_PARAMETER_SLOT_OBJ]) != 0) { /* todo remove me */ fprintf(stderr, "**** checker method %s defined on %s shadows built-in converter\n", converterNameString, objectName(paramObj)); if (paramPtr->converterName == NULL) { paramPtr->converterName = converterNameObj; paramPtr->converter = NULL; result = ParamOptionSetConverter(interp, paramPtr, converterNameString, ConvertViaCmd); } } if ((paramPtr->flags & NSF_ARG_IS_CONVERTER) && paramPtr->converter != ConvertViaCmd) { return NsfVarErrMsg(interp, "option 'convert' only allowed for application-defined converters", (char *) NULL); } if (converterNameObj != paramPtr->converterName) { DECR_REF_COUNT(converterNameObj); } } /* * If the argument is not required and no default value is * specified, we have to handle in the client code (eg. in the * canonical arg handlers for scripted methods) the unknown value * (e.g. don't set/unset a variable) */ if (!(paramPtr->flags & NSF_ARG_REQUIRED) && paramPtr->defaultValue == NULL) { (*possibleUnknowns)++; } return TCL_OK; param_error: ckfree((char *)paramPtr->name); paramPtr->name = NULL DECR_REF_COUNT(paramPtr->nameObj); return TCL_ERROR; } static int ParamDefsParse(Tcl_Interp *interp, CONST char *procName, Tcl_Obj *args, int allowedOptinons, NsfParsedParam *parsedParamPtr) { Tcl_Obj **argsv; int result, argsc; parsedParamPtr->paramDefs = NULL; parsedParamPtr->possibleUnknowns = 0; result = Tcl_ListObjGetElements(interp, args, &argsc, &argsv); if (result != TCL_OK) { return NsfVarErrMsg(interp, "cannot break down non-positional args: ", ObjStr(args), (char *) NULL); } if (argsc > 0) { NsfParam *paramsPtr, *paramPtr, *lastParamPtr; int i, possibleUnknowns = 0, plainParams = 0; NsfParamDefs *paramDefs; paramPtr = paramsPtr = ParamsNew(argsc); for (i=0; i < argsc; i++, paramPtr++) { result = ParamParse(interp, procName, argsv[i], allowedOptinons, paramPtr, &possibleUnknowns, &plainParams); if (result != TCL_OK) { ParamsFree(paramsPtr); return result; } } /* * If all arguments are good old Tcl arguments, there is no need * to use the parameter definition structure. */ if (plainParams == argsc) { ParamsFree(paramsPtr); return TCL_OK; } /* fprintf(stderr, "we need param definition structure for {%s}, argsc %d plain %d\n", ObjStr(args), argsc, plainParams); */ /* * Check the last argument. If the last argument is named 'args', * force converter and make it non-required. */ lastParamPtr = paramPtr - 1; if (isArgsString(lastParamPtr->name)) { lastParamPtr->converter = ConvertToNothing; lastParamPtr->flags &= ~NSF_ARG_REQUIRED; } paramDefs = ParamDefsNew(); paramDefs->paramsPtr = paramsPtr; paramDefs->nrParams = paramPtr-paramsPtr; /*fprintf(stderr, "method %s ifsize %d, possible unknowns = %d,\n", procName, paramPtr-paramDefsPtr, possibleUnknowns);*/ parsedParamPtr->paramDefs = paramDefs; parsedParamPtr->possibleUnknowns = possibleUnknowns; } return TCL_OK; } static int ListMethodHandle(Tcl_Interp *interp, NsfObject *object, int withPer_object, CONST char *methodName) { Tcl_SetObjResult(interp, MethodHandleObj(object, withPer_object, methodName)); return TCL_OK; } static int MakeProc(Tcl_Namespace *nsPtr, NsfAssertionStore *aStore, Tcl_Interp *interp, Tcl_Obj *nameObj, Tcl_Obj *args, Tcl_Obj *body, Tcl_Obj *precondition, Tcl_Obj *postcondition, NsfObject *object, int withPublic, int withPer_object, int clsns) { Tcl_CallFrame frame, *framePtr = &frame; CONST char *methodName = ObjStr(nameObj); NsfParsedParam parsedParam; Tcl_Obj *ov[4]; int result; /* Check, if we are allowed to redefine the method */ result = CanRedefineCmd(interp, nsPtr, object, methodName); if (result == TCL_OK) { /* Yes, so obtain an method parameter definitions */ result = ParamDefsParse(interp, methodName, args, NSF_DISALLOWED_ARG_METHOD_PARAMETER, &parsedParam); } if (result != TCL_OK) { return result; } ov[0] = NULL; /*objv[0];*/ ov[1] = nameObj; if (parsedParam.paramDefs) { NsfParam *pPtr; Tcl_Obj *argList = Tcl_NewListObj(0, NULL); for (pPtr = parsedParam.paramDefs->paramsPtr; pPtr->name; pPtr++) { if (*pPtr->name == '-') { Tcl_ListObjAppendElement(interp, argList, Tcl_NewStringObj(pPtr->name+1, -1)); } else { Tcl_ListObjAppendElement(interp, argList, Tcl_NewStringObj(pPtr->name, -1)); } } ov[2] = argList; INCR_REF_COUNT(ov[2]); /*fprintf(stderr, "final arglist = <%s>\n", ObjStr(argList)); */ ov[3] = AddPrefixToBody(body, 1, &parsedParam); } else { /* no nonpos arguments */ ov[2] = args; ov[3] = AddPrefixToBody(body, 0, &parsedParam); } Tcl_PushCallFrame(interp, (Tcl_CallFrame *)framePtr, nsPtr, 0); /* create the method in the provided namespace */ result = Tcl_ProcObjCmd(0, interp, 4, ov) != TCL_OK; if (result == TCL_OK) { /* retrieve the defined proc */ Proc *procPtr = FindProcMethod(nsPtr, methodName); if (procPtr) { /* modify the cmd of the proc to set the current namespace for the body */ if (clsns) { /* * Set the namespace of the method as inside of the class */ if (!object->nsPtr) { MakeObjNamespace(interp, object); } /*fprintf(stderr, "obj %s\n", objectName(object)); fprintf(stderr, "ns %p object->ns %p\n", ns, object->nsPtr); fprintf(stderr, "ns %s object->ns %s\n", ns->fullName, object->nsPtr->fullName);*/ procPtr->cmdPtr->nsPtr = (Namespace*) object->nsPtr; } else { /* * Set the namespace of the method to the same namespace the class has */ procPtr->cmdPtr->nsPtr = ((Command *)object->id)->nsPtr; } ParamDefsStore(interp, (Tcl_Command)procPtr->cmdPtr, parsedParam.paramDefs); #if 0 if (!withPublic) { Tcl_Command_flags((Tcl_Command)procPtr->cmdPtr) |= NSF_CMD_PROTECTED_METHOD; } #endif result = ListMethodHandle(interp, object, withPer_object, methodName); } } Tcl_PopCallFrame(interp); if (result == TCL_OK && (precondition || postcondition)) { AssertionAddProc(interp, methodName, aStore, precondition, postcondition); } if (parsedParam.paramDefs) { DECR_REF_COUNT(ov[2]); } DECR_REF_COUNT(ov[3]); return result; } static int MakeMethod(Tcl_Interp *interp, NsfObject *object, NsfClass *cl, Tcl_Obj *nameObj, Tcl_Obj *args, Tcl_Obj *body, Tcl_Obj *precondition, Tcl_Obj *postcondition, int withPublic, int clsns) { CONST char *argsStr = ObjStr(args), *bodyStr = ObjStr(body), *nameStr = ObjStr(nameObj); int result; if (precondition && !postcondition) { return NsfVarErrMsg(interp, className(cl), " method '", nameStr, "'; when specifying a precondition (", ObjStr(precondition), ") a postcondition must be specified as well", (char *) NULL); } /* if both, args and body are empty strings, we delete the method */ if (*argsStr == 0 && *bodyStr == 0) { result = cl ? NsfRemoveClassMethod(interp, (Nsf_Class *)cl, nameStr) : NsfRemoveObjectMethod(interp, (Nsf_Object *)object, nameStr); } else { NsfAssertionStore *aStore = NULL; if (precondition || postcondition) { if (cl) { NsfClassOpt *opt = NsfRequireClassOpt(cl); if (!opt->assertions) opt->assertions = AssertionCreateStore(); aStore = opt->assertions; } else { NsfObjectOpt *opt = NsfRequireObjectOpt(object); if (!opt->assertions) opt->assertions = AssertionCreateStore(); aStore = opt->assertions; } } result = MakeProc(cl ? cl->nsPtr : object->nsPtr, aStore, interp, nameObj, args, body, precondition, postcondition, object, withPublic, cl == NULL, clsns); } if (cl) { /* could be a filter or filter inheritance ... update filter orders */ FilterInvalidateObjOrders(interp, cl); } else { /* could be a filter => recompute filter order */ FilterComputeDefined(interp, object); } return result; } static int GetMatchObject(Tcl_Interp *interp, Tcl_Obj *patternObj, Tcl_Obj *origObj, NsfObject **matchObject, CONST char **pattern) { if (patternObj) { *pattern = ObjStr(patternObj); if (IsNsfTclObj(interp, patternObj, matchObject)) { } else if (patternObj == origObj && **pattern != ':') { /* no meta chars, but no appropriate nsf object found, so return empty; we could check above with NoMetaChars(pattern) as well, but the only remaining case are leading colons and metachars. */ return 1; } } return 0; } static void ForwardCmdDeleteProc(ClientData clientData) { ForwardCmdClientData *tcd = (ForwardCmdClientData *)clientData; if (tcd->cmdName) {DECR_REF_COUNT(tcd->cmdName);} if (tcd->subcommands) {DECR_REF_COUNT(tcd->subcommands);} if (tcd->onerror) {DECR_REF_COUNT(tcd->onerror);} if (tcd->prefix) {DECR_REF_COUNT(tcd->prefix);} if (tcd->args) {DECR_REF_COUNT(tcd->args);} FREE(forwardCmdClientData, tcd); } static int ForwardProcessOptions(Tcl_Interp *interp, Tcl_Obj *nameObj, Tcl_Obj *withDefault, int withEarlybinding, Tcl_Obj *withMethodprefix, int withObjscope, Tcl_Obj *withOnerror, int withVerbose, Tcl_Obj *target, int objc, Tcl_Obj * CONST objv[], ForwardCmdClientData **tcdp) { ForwardCmdClientData *tcd; int i, result = 0; tcd = NEW(ForwardCmdClientData); memset(tcd, 0, sizeof(ForwardCmdClientData)); if (withDefault) { Tcl_DString ds, *dsPtr = &ds; DSTRING_INIT(dsPtr); Tcl_DStringAppend(dsPtr, "%1 {", 4); Tcl_DStringAppend(dsPtr, ObjStr(withDefault), -1); Tcl_DStringAppend(dsPtr, "}", 1); NsfDeprecatedCmd(interp, "forward option","-default ...", Tcl_DStringValue(dsPtr)); DSTRING_FREE(dsPtr); tcd->subcommands = withDefault; result = Tcl_ListObjLength(interp, withDefault, &tcd->nr_subcommands); INCR_REF_COUNT(tcd->subcommands); } if (withMethodprefix) { tcd->prefix = withMethodprefix; INCR_REF_COUNT(tcd->prefix); } if (withOnerror) { tcd->onerror = withOnerror; INCR_REF_COUNT(tcd->onerror); } tcd->objscope = withObjscope; tcd->verbose = withVerbose; tcd->needobjmap = 0; tcd->cmdName = target; /*fprintf(stderr, "...forwardprocess objc %d\n", objc);*/ for (i=0; ineedobjmap |= (*element == '%' && *(element+1) == '@'); tcd->hasNonposArgs |= (*element == '%' && *(element+1) == '-'); if (tcd->args == NULL) { tcd->args = Tcl_NewListObj(1, &objv[i]); tcd->nr_args++; INCR_REF_COUNT(tcd->args); } else { Tcl_ListObjAppendElement(interp, tcd->args, objv[i]); tcd->nr_args++; } } if (!tcd->cmdName) { tcd->cmdName = nameObj; } /*fprintf(stderr, "cmdName = %s, args = %s, # = %d\n", ObjStr(tcd->cmdName), tcd->args?ObjStr(tcd->args):"NULL", tcd->nr_args);*/ if (tcd->objscope) { /* when we evaluating objscope, and define ... o forward append -objscope append a call to o append ... would lead to a recursive call; so we add the appropriate namespace */ CONST char *nameString = ObjStr(tcd->cmdName); if (!isAbsolutePath(nameString)) { tcd->cmdName = NameInNamespaceObj(interp, nameString, CallingNameSpace(interp)); /*fprintf(stderr, "name %s not absolute, therefore qualifying %s\n", nameObj, ObjStr(tcd->cmdName));*/ } } INCR_REF_COUNT(tcd->cmdName); if (withEarlybinding) { Tcl_Command cmd = Tcl_GetCommandFromObj(interp, tcd->cmdName); if (cmd == NULL) return NsfVarErrMsg(interp, "cannot lookup command '", ObjStr(tcd->cmdName), "'", (char *) NULL); tcd->objProc = Tcl_Command_objProc(cmd); if (tcd->objProc == NsfObjDispatch /* don't do direct invoke on nsf objects */ || tcd->objProc == TclObjInterpProc /* don't do direct invoke on tcl procs */ ) { /* silently ignore earlybinding flag */ tcd->objProc = NULL; } else { tcd->clientData = Tcl_Command_objClientData(cmd); } } tcd->passthrough = !tcd->args && *(ObjStr(tcd->cmdName)) != '%' && tcd->objProc; /*fprintf(stderr, "forward args = %p, name = '%s'\n", tcd->args, ObjStr(tcd->cmdName));*/ if (result == TCL_OK) { *tcdp = tcd; } else { ForwardCmdDeleteProc((ClientData)tcd); } return result; } static NsfClasses * ComputePrecedenceList(Tcl_Interp *interp, NsfObject *object, CONST char *pattern, int withMixins, int withRootClass) { NsfClasses *precedenceList = NULL, *pcl, **npl = &precedenceList; if (withMixins) { if (!(object->flags & NSF_MIXIN_ORDER_VALID)) MixinComputeDefined(interp, object); if (object->flags & NSF_MIXIN_ORDER_DEFINED_AND_VALID) { NsfCmdList *ml = object->mixinOrder; while (ml) { NsfClass *mixin = NsfGetClassFromCmdPtr(ml->cmdPtr); if (pattern) { if (!Tcl_StringMatch(className(mixin), pattern)) continue; } npl = NsfClassListAdd(npl, mixin, NULL); ml = ml->nextPtr; } } } pcl = ComputeOrder(object->cl, object->cl->order, Super); for (; pcl; pcl = pcl->nextPtr) { if (withRootClass == 0 && pcl->cl->object.flags & NSF_IS_ROOT_CLASS) continue; if (pattern) { if (!Tcl_StringMatch(className(pcl->cl), pattern)) continue; } npl = NsfClassListAdd(npl, pcl->cl, NULL); } return precedenceList; } static CONST char * StripBodyPrefix(CONST char *body) { if (strncmp(body, "::nsf::unsetUnknownArgs\n", 24) == 0) body += 24; return body; } static NsfObjects * ComputeSlotObjects(Tcl_Interp *interp, NsfObject *object, NsfClass *type, int withRootClass) { NsfObjects *slotObjects = NULL, **npl = &slotObjects; NsfClasses *pl, *fullPrecendenceList; NsfObject *childObject, *tmpObject; Tcl_HashTable slotTable; assert(object); Tcl_InitHashTable(&slotTable, TCL_STRING_KEYS); MEM_COUNT_ALLOC("Tcl_InitHashTable", slotTable); fullPrecendenceList = ComputePrecedenceList(interp, object, NULL /* pattern*/, 1, withRootClass); for (pl=fullPrecendenceList; pl; pl = pl->nextPtr) { Tcl_DString ds, *dsPtr = &ds; DSTRING_INIT(dsPtr); Tcl_DStringAppend(dsPtr, className(pl->cl), -1); Tcl_DStringAppend(dsPtr, "::slot", 6); tmpObject = GetObjectFromString(interp, Tcl_DStringValue(dsPtr)); if (tmpObject) { Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr, *slotEntry; Tcl_HashTable *cmdTable; Tcl_Command cmd; int new; if (!tmpObject->nsPtr) continue; cmdTable = Tcl_Namespace_cmdTable(tmpObject->nsPtr); hPtr = Tcl_FirstHashEntry(cmdTable, &hSrch); for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { char *key = Tcl_GetHashKey(cmdTable, hPtr); slotEntry = Tcl_CreateHashEntry(&slotTable, key, &new); if (!new) continue; cmd = (Tcl_Command) Tcl_GetHashValue(hPtr); childObject = NsfGetObjectFromCmdPtr(cmd); /*fprintf(stderr, "we have true child obj %s\n", objectName(childObject));*/ if (type && !IsSubType(childObject->cl, type)) continue; npl = NsfObjectListAdd(npl, childObject); } } DSTRING_FREE(dsPtr); } Tcl_DeleteHashTable(&slotTable); MEM_COUNT_FREE("Tcl_InitHashTable", slotTable); NsfClassListFree(fullPrecendenceList); return slotObjects; } static NsfClass * FindCalledClass(Tcl_Interp *interp, NsfObject *object) { NsfCallStackContent *cscPtr = CallStackGetTopFrame(interp, NULL); CONST char *methodName; Tcl_Command cmd; if (cscPtr->frameType == NSF_CSC_TYPE_PLAIN) return cscPtr->cl; if (cscPtr->frameType == NSF_CSC_TYPE_ACTIVE_FILTER) methodName = ObjStr(cscPtr->filterStackEntry->calledProc); else if (cscPtr->frameType == NSF_CSC_TYPE_ACTIVE_MIXIN && object->mixinStack) methodName = (char *)Tcl_GetCommandName(interp, cscPtr->cmdPtr); else return NULL; if (object->nsPtr) { cmd = FindMethod(object->nsPtr, methodName); if (cmd) { /* we called an object specific method */ return NULL; } } return SearchCMethod(object->cl, methodName, &cmd); } /* * Next Primitive Handling */ NSF_INLINE static int NextSearchMethod(NsfObject *object, Tcl_Interp *interp, NsfCallStackContent *cscPtr, NsfClass **cl, CONST char **methodName, Tcl_Command *cmd, int *isMixinEntry, int *isFilterEntry, int *endOfFilterChain, Tcl_Command *currentCmd) { int endOfChain = 0, objflags; /* * Next in filters */ objflags = object->flags; /* avoid stalling */ if (!(objflags & NSF_MIXIN_ORDER_VALID)) { MixinComputeDefined(interp, object); objflags = object->flags; /* avoid stalling */ } if ((objflags & NSF_FILTER_ORDER_VALID) && object->filterStack && object->filterStack->currentCmdPtr) { *cmd = FilterSearchProc(interp, object, currentCmd, cl); /*fprintf(stderr, "EndOfChain? proc=%p, cmd=%p\n",*proc,*cmd);*/ /* NsfCallStackDump(interp); NsfStackDump(interp);*/ if (*cmd == 0) { if (cscPtr->frameType == NSF_CSC_TYPE_ACTIVE_FILTER) { /* reset the information to the values of method, cl to the values they had before calling the filters */ *methodName = ObjStr(object->filterStack->calledProc); endOfChain = 1; *endOfFilterChain = 1; *cl = 0; /*fprintf(stderr, "EndOfChain resetting cl\n");*/ } } else { *methodName = (char *) Tcl_GetCommandName(interp, *cmd); *endOfFilterChain = 0; *isFilterEntry = 1; return TCL_OK; } } /* * Next in Mixins */ assert(objflags & NSF_MIXIN_ORDER_VALID); /* otherwise: MixinComputeDefined(interp, object); */ /*fprintf(stderr, "nextsearch: mixinorder valid %d stack=%p\n", obj->flags & NSF_MIXIN_ORDER_VALID, obj->mixinStack);*/ if ((objflags & NSF_MIXIN_ORDER_VALID) && object->mixinStack) { int result = MixinSearchProc(interp, object, *methodName, cl, currentCmd, cmd); if (result != TCL_OK) { return result; } /*fprintf(stderr, "nextsearch: mixinsearch cmd %p, currentCmd %p\n",*cmd, *currentCmd);*/ if (*cmd == 0) { if (cscPtr->frameType == NSF_CSC_TYPE_ACTIVE_MIXIN) { endOfChain = 1; *cl = 0; } } else { *isMixinEntry = 1; return TCL_OK; } } /* * otherwise: normal method dispatch * * if we are already in the precedence ordering, then advance * past our last point; otherwise (if cl==0) begin from the start */ /* if a mixin or filter chain has ended -> we have to search the obj-specific methods as well */ if (object->nsPtr && endOfChain) { *cmd = FindMethod(object->nsPtr, *methodName); } else { *cmd = NULL; } if (!*cmd) { NsfClasses *pl; #if 0 /* a more explicit version, but slower */ pl = ComputeOrder(object->cl, object->cl->order, Super); /* if we have a class, skip to the next class in the precedence order */ if (*cl) { for (; pl; pl = pl->nextPtr) { if (pl->cl == *cl) { pl = pl->nextPtr; break; } } } #else for (pl = ComputeOrder(object->cl, object->cl->order, Super); *cl && pl; pl = pl->nextPtr) { if (pl->cl == *cl) { *cl = NULL; } } #endif /* * search for a further class method */ *cl = SearchPLMethod(pl, *methodName, cmd); /*fprintf(stderr, "no cmd, cl = %p %s\n",*cl, className((*cl)));*/ } else { *cl = 0; } return TCL_OK; } static int NsfNextMethod(NsfObject *object, Tcl_Interp *interp, NsfClass *givenCl, CONST char *givenMethodName, int objc, Tcl_Obj *CONST objv[], int useCallstackObjs, NsfCallStackContent *cscPtr) { Tcl_Command cmd, currentCmd = NULL; int result, frameType = NSF_CSC_TYPE_PLAIN, isMixinEntry = 0, isFilterEntry = 0, endOfFilterChain = 0, decrObjv0 = 0; int nobjc; Tcl_Obj **nobjv; NsfClass **cl = &givenCl; CONST char **methodName = &givenMethodName; Tcl_CallFrame *framePtr; if (!cscPtr) { cscPtr = CallStackGetTopFrame(interp, &framePtr); } else { /* * cscPtr was given (i.e. it is not yet on the stack. So we cannot * get objc from the associated stack frame */ framePtr = NULL; assert(useCallstackObjs == 0); /* fprintf(stderr, "NsfNextMethod csc given, use %d, framePtr %p\n", useCallstackObjs, framePtr); */ } /*fprintf(stderr, "NsfNextMethod givenMethod = %s, csc = %p, useCallstackObj %d, objc %d cfp %p\n", givenMethodName, cscPtr, useCallstackObjs, objc, framePtr);*/ /* if no args are given => use args from stack */ if (objc < 2 && useCallstackObjs && framePtr) { if (cscPtr->objv) { nobjv = cscPtr->objv; nobjc = cscPtr->objc; } else { nobjc = Tcl_CallFrame_objc(framePtr); nobjv = (Tcl_Obj **)Tcl_CallFrame_objv(framePtr); } } else { nobjc = objc; nobjv = (Tcl_Obj **)objv; /* We do not want to have "next" as the procname, since this can lead to unwanted results e.g. in a forwarder using %proc. So, we replace the first word with the value from the callstack to be compatible with the case where next is called without args. */ if (useCallstackObjs && framePtr) { nobjv[0] = Tcl_CallFrame_objv(framePtr)[0]; INCR_REF_COUNT(nobjv[0]); /* we seem to need this here */ decrObjv0 = 1; } } /* * Search the next method & compute its method data */ result = NextSearchMethod(object, interp, cscPtr, cl, methodName, &cmd, &isMixinEntry, &isFilterEntry, &endOfFilterChain, ¤tCmd); if (result != TCL_OK) { return result; } /* fprintf(stderr, "NextSearchMethod -- RETURN: method=%s eoffc=%d,", *methodName, endOfFilterChain); if (obj) fprintf(stderr, " obj=%s,", objectName(object)); if ((*cl)) fprintf(stderr, " cl=%s,", (*cl)->nsPtr->fullName); fprintf(stderr, " mixin=%d, filter=%d, proc=%p\n", isMixinEntry, isFilterEntry, proc); */ #if 0 Tcl_ResetResult(interp); /* needed for bytecode support */ #endif if (cmd) { /* * change mixin state */ if (object->mixinStack) { if (cscPtr->frameType == NSF_CSC_TYPE_ACTIVE_MIXIN) cscPtr->frameType = NSF_CSC_TYPE_INACTIVE_MIXIN; /* otherwise move the command pointer forward */ if (isMixinEntry) { frameType = NSF_CSC_TYPE_ACTIVE_MIXIN; object->mixinStack->currentCmdPtr = currentCmd; } } /* * change filter state */ if (object->filterStack) { if (cscPtr->frameType == NSF_CSC_TYPE_ACTIVE_FILTER) { /*fprintf(stderr, "next changes filter state\n");*/ cscPtr->frameType = NSF_CSC_TYPE_INACTIVE_FILTER; } /* otherwise move the command pointer forward */ if (isFilterEntry) { /*fprintf(stderr, "next moves filter forward\n");*/ frameType = NSF_CSC_TYPE_ACTIVE_FILTER; object->filterStack->currentCmdPtr = currentCmd; } } /* * now actually call the "next" method */ /* cut the flag, that no stdargs should be used, if it is there */ if (nobjc > 1) { CONST char *nobjv1 = ObjStr(nobjv[1]); if (nobjv1[0] == '-' && !strcmp(nobjv1, "--noArgs")) nobjc = 1; } cscPtr->callType |= NSF_CSC_CALL_IS_NEXT; RUNTIME_STATE(interp)->unknown = 0; /*fprintf(stderr, "setting unknown to 0\n");*/ result = MethodDispatch((ClientData)object, interp, nobjc, nobjv, cmd, object, *cl, *methodName, frameType); cscPtr->callType &= ~NSF_CSC_CALL_IS_NEXT; if (cscPtr->frameType == NSF_CSC_TYPE_INACTIVE_FILTER) cscPtr->frameType = NSF_CSC_TYPE_ACTIVE_FILTER; else if (cscPtr->frameType == NSF_CSC_TYPE_INACTIVE_MIXIN) cscPtr->frameType = NSF_CSC_TYPE_ACTIVE_MIXIN; } else if (result == TCL_OK && endOfFilterChain) { /*fprintf(stderr, "setting unknown to 1\n");*/ RUNTIME_STATE(interp)->unknown = 1; } if (decrObjv0) { INCR_REF_COUNT(nobjv[0]); } return result; } int NsfNextObjCmd(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { NsfCallStackContent *cscPtr = CallStackGetTopFrame(interp, NULL); if (!cscPtr) return NsfVarErrMsg(interp, "next: can't find self", (char *) NULL); if (!cscPtr->cmdPtr) return NsfErrMsg(interp, "next: no executing proc", TCL_STATIC); return NsfNextMethod(cscPtr->self, interp, cscPtr->cl, (char *)Tcl_GetCommandName(interp, cscPtr->cmdPtr), objc, objv, 1, NULL); } /* * "self" object command */ static int FindSelfNext(Tcl_Interp *interp) { NsfCallStackContent *cscPtr = CallStackGetTopFrame(interp, NULL); Tcl_Command cmd, currentCmd = 0; int result, isMixinEntry = 0, isFilterEntry = 0, endOfFilterChain = 0; NsfClass *cl = cscPtr->cl; NsfObject *object = cscPtr->self; CONST char *methodName; Tcl_ResetResult(interp); methodName = (char *)Tcl_GetCommandName(interp, cscPtr->cmdPtr); if (!methodName) { return TCL_OK; } result = NextSearchMethod(object, interp, cscPtr, &cl, &methodName, &cmd, &isMixinEntry, &isFilterEntry, &endOfFilterChain, ¤tCmd); if (cmd) { Tcl_SetObjResult(interp, MethodHandleObj(cl ? (NsfObject*)cl : object, cl == NULL, methodName)); } return result; } static Tcl_Obj * ComputeLevelObj(Tcl_Interp *interp, CallStackLevel level) { Tcl_CallFrame *framePtr; Tcl_Obj *resultObj; switch (level) { case CALLING_LEVEL: NsfCallStackFindLastInvocation(interp, 1, &framePtr); break; case ACTIVE_LEVEL: NsfCallStackFindActiveFrame(interp, 1, &framePtr); break; default: framePtr = NULL; } if (framePtr) { /* the call was from an nsf frame, return absolute frame number */ char buffer[LONG_AS_STRING]; int l; buffer[0] = '#'; Nsf_ltoa(buffer+1, (long)Tcl_CallFrame_level(framePtr), &l); /*fprintf(stderr, "*** framePtr=%p buffer %s\n", framePtr, buffer);*/ resultObj = Tcl_NewStringObj(buffer, l+1); } else { /* If not called from an nsf frame, return 1 as default */ resultObj = Tcl_NewIntObj(1); } return resultObj; } /* int NsfKObjCmd(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { if (objc < 2) return NsfVarErrMsg(interp, "wrong # of args for K", (char *) NULL); Tcl_SetObjResult(interp, objv[1]); return TCL_OK; } */ /* * object creation & destruction */ static int UnsetInAllNamespaces(Tcl_Interp *interp, Namespace *nsPtr, CONST char *name) { int rc = 0; fprintf(stderr, "### UnsetInAllNamespaces variable '%s', current namespace '%s'\n", name, nsPtr ? nsPtr->fullName : "NULL"); if (nsPtr) { Tcl_HashSearch search; Tcl_HashEntry *entryPtr = Tcl_FirstHashEntry(&nsPtr->childTable, &search); Tcl_Var *varPtr; int result; varPtr = (Tcl_Var *) Tcl_FindNamespaceVar(interp, name, (Tcl_Namespace *) nsPtr, 0); /*fprintf(stderr, "found %s in %s -> %p\n", name, nsPtr->fullName, varPtr);*/ if (varPtr) { Tcl_DString dFullname, *dsPtr = &dFullname; Tcl_DStringInit(dsPtr); Tcl_DStringAppend(dsPtr, "unset ", -1); Tcl_DStringAppend(dsPtr, nsPtr->fullName, -1); Tcl_DStringAppend(dsPtr, "::", 2); Tcl_DStringAppend(dsPtr, name, -1); /*rc = Tcl_UnsetVar2(interp, Tcl_DStringValue(dsPtr), NULL, TCL_LEAVE_ERR_MSG);*/ result = Tcl_Eval(interp, Tcl_DStringValue(dsPtr)); /* fprintf(stderr, "fqName = '%s' unset => %d %d\n", Tcl_DStringValue(dsPtr), rc, TCL_OK);*/ if (result == TCL_OK) { rc = 1; } else { Tcl_Obj *resultObj = Tcl_GetObjResult(interp); fprintf(stderr, " err = '%s'\n", ObjStr(resultObj)); } Tcl_DStringFree(dsPtr); } while (rc == 0 && entryPtr) { Namespace *childNsPtr = (Namespace *) Tcl_GetHashValue(entryPtr); /*fprintf(stderr, "child = %s\n", childNsPtr->fullName);*/ entryPtr = Tcl_NextHashEntry(&search); rc |= UnsetInAllNamespaces(interp, childNsPtr, name); } } return rc; } static int FreeUnsetTraceVariable(Tcl_Interp *interp, NsfObject *object) { int result = TCL_OK; if (object->opt && object->opt->volatileVarName) { /* Somebody destroys a volatile object manually while the vartrace is still active. Destroying the object will be a problem in case the variable is deleted later and fires the trace. So, we unset the variable here which will cause a destroy via var trace, which in turn clears the volatileVarName flag. */ /*fprintf(stderr, "### FreeUnsetTraceVariable %s\n", obj->opt->volatileVarName);*/ result = Tcl_UnsetVar2(interp, object->opt->volatileVarName, NULL, 0); if (result != TCL_OK) { int result = Tcl_UnsetVar2(interp, object->opt->volatileVarName, NULL, TCL_GLOBAL_ONLY); if (result != TCL_OK) { Namespace *nsPtr = (Namespace *) Tcl_GetCurrentNamespace(interp); if (UnsetInAllNamespaces(interp, nsPtr, object->opt->volatileVarName) == 0) { fprintf(stderr, "### don't know how to delete variable '%s' of volatile object\n", object->opt->volatileVarName); } } } if (result == TCL_OK) { /*fprintf(stderr, "### success unset\n");*/ } } return result; } static char * NsfUnsetTrace(ClientData clientData, Tcl_Interp *interp, CONST char *name, CONST char *name2, int flags) { Tcl_Obj *obj = (Tcl_Obj *)clientData; NsfObject *object; char *resultMsg = NULL; /*fprintf(stderr, "NsfUnsetTrace %s flags %.4x %.4x\n", name, flags, flags & TCL_INTERP_DESTROYED); */ if ((flags & TCL_INTERP_DESTROYED) == 0) { if (GetObjectFromObj(interp, obj, &object) == TCL_OK) { Tcl_Obj *res = Tcl_GetObjResult(interp); /* save the result */ INCR_REF_COUNT(res); /* clear variable, destroy is called from trace */ if (object->opt && object->opt->volatileVarName) { object->opt->volatileVarName = NULL; } if (DispatchDestroyMethod(interp, object, 0) != TCL_OK) { resultMsg = "Destroy for volatile object failed"; } else resultMsg = "No nsf Object passed"; Tcl_SetObjResult(interp, res); /* restore the result */ DECR_REF_COUNT(res); } DECR_REF_COUNT(obj); } else { /*fprintf(stderr, "omitting destroy on %s %p\n", name);*/ } return resultMsg; } /* * bring an object into a state, as after initialization */ static void CleanupDestroyObject(Tcl_Interp *interp, NsfObject *object, int softrecreate) { /*fprintf(stderr, "CleanupDestroyObject obj %p softrecreate %d nsPtr %p\n", object, softrecreate, object->nsPtr);*/ /* remove the instance, but not for ::Class/::Object */ if ((object->flags & NSF_IS_ROOT_CLASS) == 0 && (object->flags & NSF_IS_ROOT_META_CLASS) == 0 ) { if (!softrecreate) { (void)RemoveInstance(object, object->cl); } } if (object->nsPtr) { NSCleanupNamespace(interp, object->nsPtr); NSDeleteChildren(interp, object->nsPtr); } if (object->varTable) { TclDeleteVars(((Interp *)interp), object->varTable); ckfree((char *)object->varTable); /*FREE(obj->varTable, obj->varTable);*/ object->varTable = 0; } if (object->opt) { NsfObjectOpt *opt = object->opt; AssertionRemoveStore(opt->assertions); opt->assertions = NULL; if (!softrecreate) { /* * Remove this object from all per object mixin lists and clear the mixin list */ RemoveFromObjectMixinsOf(object->id, opt->mixins); CmdListRemoveList(&opt->mixins, GuardDel); CmdListRemoveList(&opt->filters, GuardDel); FREE(NsfObjectOpt, opt); opt = object->opt = 0; } } object->flags &= ~NSF_MIXIN_ORDER_VALID; if (object->mixinOrder) MixinResetOrder(object); object->flags &= ~NSF_FILTER_ORDER_VALID; if (object->filterOrder) FilterResetOrder(object); } /* * do obj initialization & namespace creation */ static void CleanupInitObject(Tcl_Interp *interp, NsfObject *object, NsfClass *cl, Tcl_Namespace *nsPtr, int softrecreate) { #ifdef OBJDELETION_TRACE fprintf(stderr, "+++ CleanupInitObject\n"); #endif object->teardown = interp; object->nsPtr = nsPtr; if (!softrecreate) { AddInstance(object, cl); } if (object->flags & NSF_RECREATE) { object->opt = 0; object->varTable = 0; object->mixinOrder = 0; object->filterOrder = 0; object->flags = 0; } /* fprintf(stderr, "cleanupInitObject %s: %p cl = %p\n", obj->cmdName ? objectName(object) : "", object, object->cl);*/ } static void PrimitiveDestroy(ClientData clientData) { NsfObject *object = (NsfObject*)clientData; if (NsfObjectIsClass(object)) PrimitiveCDestroy((ClientData) object); else PrimitiveODestroy((ClientData) object); } static void TclDeletesObject(ClientData clientData) { NsfObject *object = (NsfObject*)clientData; Tcl_Interp *interp; object->flags |= NSF_TCL_DELETE; /*fprintf(stderr, "cmd dealloc %p TclDeletesObject (2d)\n", object->id, Tcl_Command_refCount(object->id)); */ #ifdef OBJDELETION_TRACE fprintf(stderr, "TclDeletesObject %p obj->id %p flags %.6x\n", object, object->id, object->flags); #endif if ((object->flags & NSF_DURING_DELETE) || !object->teardown) return; interp = object->teardown; # ifdef OBJDELETION_TRACE fprintf(stderr, "... %p %s\n", object, objectName(object)); # endif CallStackDestroyObject(interp, object); /*fprintf(stderr, "TclDeletesObject %p DONE\n", object);*/ } /* * physical object destroy */ static void PrimitiveODestroy(ClientData clientData) { NsfObject *object = (NsfObject*)clientData; Tcl_Interp *interp; if (!object || !object->teardown) return; /*fprintf(stderr, "****** PrimitiveODestroy %p flags %.6x\n", object, object->flags);*/ assert(!(object->flags & NSF_DELETED)); /* destroy must have been called already */ assert(object->flags & NSF_DESTROY_CALLED); /* * check and latch against recurrent calls with object->teardown */ PRINTOBJ("PrimitiveODestroy", object); interp = object->teardown; /* * Don't destroy, if the interpreter is destroyed already * e.g. TK calls Tcl_DeleteInterp directly, if the window is killed */ if (Tcl_InterpDeleted(interp)) return; #ifdef OBJDELETION_TRACE fprintf(stderr, " physical delete of %p id=%p destroyCalled=%d '%s'\n", object, object->id, (object->flags & NSF_DESTROY_CALLED), objectName(object)); #endif CleanupDestroyObject(interp, object, 0); while (object->mixinStack) MixinStackPop(object); while (object->filterStack) FilterStackPop(object); object->teardown = NULL; if (object->nsPtr) { /*fprintf(stderr, "PrimitiveODestroy calls deleteNamespace for object %p nsPtr %p\n", object, object->nsPtr);*/ Nsf_DeleteNamespace(interp, object->nsPtr); object->nsPtr = NULL; } /*fprintf(stderr, " +++ OBJ/CLS free: %s\n", objectName(object));*/ object->flags |= NSF_DELETED; ObjTrace("ODestroy", object); DECR_REF_COUNT(object->cmdName); NsfCleanupObject(object); } /* * reset the object to a fresh, undestroyed state */ static void MarkUndestroyed(NsfObject *object) { object->flags &= ~NSF_DESTROY_CALLED; } static void PrimitiveOInit(void *mem, Tcl_Interp *interp, CONST char *name, NsfClass *cl) { NsfObject *object = (NsfObject*)mem; Tcl_Namespace *nsPtr; #ifdef OBJDELETION_TRACE fprintf(stderr, "+++ PrimitiveOInit\n"); #endif #ifdef NSFOBJ_TRACE fprintf(stderr, "OINIT %s = %p\n", name, object); #endif NsfObjectRefCountIncr(object); MarkUndestroyed(object); /* * There might be already a namespace with name name; if this is the * case, use this namepsace as object namespace. The preexisting * namespace might contain Next Scripting objects. If we would not use the * namespace as child namespace, we would not recognize the objects * as child objects, deletions of the object might lead to a crash. */ nsPtr = Tcl_FindNamespace(interp, name, (Tcl_Namespace *) NULL, TCL_GLOBAL_ONLY); /*fprintf(stderr, "PrimitiveOInit %p %s, ns %p\n", object, name, nsPtr); */ CleanupInitObject(interp, object, cl, nsPtr, 0); /*obj->flags = NSF_MIXIN_ORDER_VALID | NSF_FILTER_ORDER_VALID;*/ object->mixinStack = NULL; object->filterStack = NULL; } /* * Object creation: create object name (full name) and Tcl command */ static NsfObject * PrimitiveOCreate(Tcl_Interp *interp, Tcl_Obj *nameObj, NsfClass *cl) { NsfObject *object = (NsfObject*)ckalloc(sizeof(NsfObject)); CONST char *nameString = ObjStr(nameObj); size_t length; #if defined(NSFOBJ_TRACE) fprintf(stderr, "CKALLOC Object %p %s\n", object, nameString); #endif #ifdef OBJDELETION_TRACE fprintf(stderr, "+++ PrimitiveOCreate\n"); #endif memset(object, 0, sizeof(NsfObject)); MEM_COUNT_ALLOC("NsfObject/NsfClass", object); assert(object); /* ckalloc panics, if malloc fails */ assert(isAbsolutePath(nameString)); length = strlen(nameString); if (!NSCheckForParent(interp, nameString, length, cl)) { ckfree((char *) object); return NULL; } object->id = Tcl_CreateObjCommand(interp, nameString, NsfObjDispatch, (ClientData)object, TclDeletesObject); /*fprintf(stderr, "cmd alloc %p %d (%s)\n", object->id, Tcl_Command_refCount(object->id), nameString);*/ PrimitiveOInit(object, interp, nameString, cl); object->cmdName = nameObj; /* convert cmdName to Tcl Obj of type cmdName */ /*Tcl_GetCommandFromObj(interp, obj->cmdName);*/ INCR_REF_COUNT(object->cmdName); ObjTrace("PrimitiveOCreate", object); return object; } static NsfClass * DefaultSuperClass(Tcl_Interp *interp, NsfClass *cl, NsfClass *mcl, int isMeta) { NsfClass *defaultClass = NULL; /*fprintf(stderr, "DefaultSuperClass cl %s, mcl %s, isMeta %d\n", className(cl), className(mcl), isMeta );*/ if (mcl) { int result; result = SetInstVar(interp, (NsfObject *)mcl, isMeta ? NsfGlobalObjs[NSF_DEFAULTMETACLASS] : NsfGlobalObjs[NSF_DEFAULTSUPERCLASS], NULL); if (result == TCL_OK) { Tcl_Obj *nameObj = Tcl_GetObjResult(interp); if (GetClassFromObj(interp, nameObj, &defaultClass, NULL) != TCL_OK) { NsfErrMsg(interp, "default superclass is not a class", TCL_STATIC); } /*fprintf(stderr, "DefaultSuperClass for %s got from var %s\n", className(cl), ObjStr(nameObj));*/ } else { NsfClass *result; NsfClasses *sc; /*fprintf(stderr, "DefaultSuperClass for %s: search in superclasses starting with %p meta %d\n", className(cl), cl->super, isMeta);*/ /* * check superclasses of metaclass */ if (isMeta) { /*fprintf(stderr, " ... is %s already root meta %d\n", className(mcl->object.cl), mcl->object.cl->object.flags & NSF_IS_ROOT_META_CLASS);*/ if (mcl->object.cl->object.flags & NSF_IS_ROOT_META_CLASS) { return mcl->object.cl; } } for (sc = mcl->super; sc && sc->cl != cl; sc = sc->nextPtr) { /*fprintf(stderr, " ... check ismeta %d %s root mcl %d root cl %d\n", isMeta, className(sc->cl), sc->cl->object.flags & NSF_IS_ROOT_META_CLASS, sc->cl->object.flags & NSF_IS_ROOT_CLASS);*/ if (isMeta) { if (sc->cl->object.flags & NSF_IS_ROOT_META_CLASS) { return sc->cl; } } else { if (sc->cl->object.flags & NSF_IS_ROOT_CLASS) { /*fprintf(stderr, "found root class %p\n", sc->cl);*/ return sc->cl; } } result = DefaultSuperClass(interp, cl, sc->cl, isMeta); if (result) { return result; } } } } else { /* during bootstrapping, there might be no meta class defined yet */ /*fprintf(stderr, "no meta class ismeta %d %s root mcl %d root cl %d\n", isMeta, className(cl), cl->object.flags & NSF_IS_ROOT_META_CLASS, cl->object.flags & NSF_IS_ROOT_CLASS );*/ return NULL; } return defaultClass; } /* * Cleanup class: remove filters, mixins, assertions, instances ... * and remove class from class hierarchy */ static void CleanupDestroyClass(Tcl_Interp *interp, NsfClass *cl, int softrecreate, int recreate) { Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; NsfClassOpt *clopt = cl->opt; NsfClass *baseClass = NULL; PRINTOBJ("CleanupDestroyClass", (NsfObject *)cl); assert(softrecreate ? recreate == 1 : 1); /* fprintf(stderr, "CleanupDestroyClass %p %s (ismeta=%d) softrecreate=%d, recreate=%d, %p\n", cl,className(cl),IsMetaClass(interp, cl, 1), softrecreate, recreate, clopt);*/ /* * Perform the next steps even with clopt == NULL, since the class * might be used as a superclass of a per object mixin, so it might * have no clopt... */ MixinInvalidateObjOrders(interp, cl); FilterInvalidateObjOrders(interp, cl); if (clopt) { /* * Remove this class from all isClassMixinOf lists and clear the * class mixin list */ RemoveFromClassMixinsOf(clopt->id, clopt->classmixins); CmdListRemoveList(&clopt->classmixins, GuardDel); /*MixinInvalidateObjOrders(interp, cl);*/ CmdListRemoveList(&clopt->classfilters, GuardDel); /*FilterInvalidateObjOrders(interp, cl);*/ if (!recreate) { /* * Remove this class from all mixin lists and clear the isObjectMixinOf list */ RemoveFromMixins(clopt->id, clopt->isObjectMixinOf); CmdListRemoveList(&clopt->isObjectMixinOf, GuardDel); /* * Remove this class from all class mixin lists and clear the * isClassMixinOf list */ RemoveFromClassmixins(clopt->id, clopt->isClassMixinOf); CmdListRemoveList(&clopt->isClassMixinOf, GuardDel); } /* * Remove dependent filters of this class from all subclasses */ FilterRemoveDependentFilterCmds(cl, cl); AssertionRemoveStore(clopt->assertions); clopt->assertions = NULL; #ifdef NSF_OBJECTDATA NsfFreeObjectData(cl); #endif } NSCleanupNamespace(interp, cl->nsPtr); NSDeleteChildren(interp, cl->nsPtr); /*fprintf(stderr, " CleanupDestroyClass softrecreate %d\n", softrecreate);*/ if (!softrecreate) { /* * Reclass all instances of the current class the the appropriate * most general class ("baseClass"). The most general class of a * metaclass is the root meta class, the most general class of an * object is the root class. Instances of metaclasses can be only * reset to the root meta class (and not to to the root base * class). */ baseClass = DefaultSuperClass(interp, cl, cl->object.cl, IsMetaClass(interp, cl, 1)); /* * We do not have to reclassing in case, cl is a root class */ if ((cl->object.flags & NSF_IS_ROOT_CLASS) == 0) { hPtr = &cl->instances ? Tcl_FirstHashEntry(&cl->instances, &hSrch) : NULL; for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { NsfObject *inst = (NsfObject*)Tcl_GetHashKey(&cl->instances, hPtr); /*fprintf(stderr, " inst %p %s flags %.6x id %p baseClass %p %s\n", inst, objectName(inst), inst->flags, inst->id,baseClass,className(baseClass));*/ if (inst && inst != (NsfObject*)cl && !(inst->flags & NSF_DURING_DELETE) /*inst->id*/) { if (inst != &(baseClass->object)) { (void)RemoveInstance(inst, cl->object.cl); AddInstance(inst, baseClass); } } } } Tcl_DeleteHashTable(&cl->instances); MEM_COUNT_FREE("Tcl_InitHashTable", &cl->instances); } if ((clopt) && (!recreate)) { FREE(NsfClassOpt, clopt); clopt = cl->opt = 0; } /* * On a recreate, it might be possible that the newly created class * has a different superclass. So we have to flush the precedence * list on a recreate as well. */ FlushPrecedencesOnSubclasses(cl); while (cl->super) (void)RemoveSuper(cl, cl->super->cl); if (!softrecreate) { /* * flush all caches, unlink superclasses */ while (cl->sub) { NsfClass *subClass = cl->sub->cl; (void)RemoveSuper(subClass, cl); /* * If there are no more super classes add the Object * class as superclasses * -> don't do that for Object itself! */ if (subClass->super == 0 && (cl->object.flags & NSF_IS_ROOT_CLASS) == 0) { /* fprintf(stderr,"subClass %p %s baseClass %p %s\n", cl,className(cl),baseClass,className(baseClass)); */ AddSuper(subClass, baseClass); } } /*(void)RemoveSuper(cl, cl->super->cl);*/ } } /* * do class initialization & namespace creation */ static void CleanupInitClass(Tcl_Interp *interp, NsfClass *cl, Tcl_Namespace *nsPtr, int softrecreate, int recreate) { NsfClass *defaultSuperclass; assert(softrecreate ? recreate == 1 : 1); #ifdef OBJDELETION_TRACE fprintf(stderr, "+++ CleanupInitClass\n"); #endif /* * During init of Object and Class the theClass value is not set */ /* if (RUNTIME_STATE(interp)->theClass != 0) obj->type = RUNTIME_STATE(interp)->theClass; */ NsfObjectSetClass((NsfObject*)cl); cl->nsPtr = nsPtr; if (!softrecreate) { /* subclasses are preserved during recreate, superclasses not (since the creation statement defined the superclass, might be different the second time) */ cl->sub = NULL; } cl->super = NULL; /* Look for a configured default superclass */ defaultSuperclass = DefaultSuperClass(interp, cl, cl->object.cl, 0); if (cl != defaultSuperclass) { AddSuper(cl, defaultSuperclass); } cl->color = WHITE; cl->order = NULL; if (!softrecreate) { Tcl_InitHashTable(&cl->instances, TCL_ONE_WORD_KEYS); MEM_COUNT_ALLOC("Tcl_InitHashTable", &cl->instances); } if (!recreate) { cl->opt = NULL; } } /* * class physical destruction */ static void PrimitiveCDestroy(ClientData clientData) { NsfClass *cl = (NsfClass*)clientData; NsfObject *object = (NsfObject*)clientData; Tcl_Interp *interp; Tcl_Namespace *saved; PRINTOBJ("PrimitiveCDestroy", object); /* * check and latch against recurrent calls with obj->teardown */ if (!object || !object->teardown) return; interp = object->teardown; /* * Don't destroy, if the interpreted is destroyed already * e.g. TK calls Tcl_DeleteInterp directly, if Window is killed */ if (Tcl_InterpDeleted(interp)) return; /* * call and latch user destroy with object->id if we haven't */ /*fprintf(stderr, "PrimitiveCDestroy %s flags %.6x\n", objectName(object), object->flags);*/ object->teardown = NULL; CleanupDestroyClass(interp, cl, 0, 0); /* * handoff the primitive teardown */ saved = cl->nsPtr; object->teardown = interp; /* * class object destroy + physical destroy */ /*fprintf(stderr, "primitive cdestroy %p %.6x calls primitive odestroy\n", cl, flags);*/ PrimitiveODestroy(clientData); /*fprintf(stderr, "primitive cdestroy calls deletenamespace for obj %p, nsPtr %p flags %.6x\n", cl, saved, ((Namespace *)saved)->flags);*/ saved->clientData = NULL; Nsf_DeleteNamespace(interp, saved); /*fprintf(stderr, "primitive cdestroy %p DONE\n",cl);*/ return; } /* * class init */ static void PrimitiveCInit(NsfClass *cl, Tcl_Interp *interp, CONST char *name) { Tcl_CallFrame frame, *framePtr = &frame; Tcl_Namespace *nsPtr; /* * ensure that namespace is newly created during CleanupInitClass * ie. kill it, if it exists already */ if (Tcl_PushCallFrame(interp, (Tcl_CallFrame *)framePtr, RUNTIME_STATE(interp)->NsfClassesNS, 0) != TCL_OK) { return; } nsPtr = NSGetFreshNamespace(interp, (ClientData)cl, name, 1); Tcl_PopCallFrame(interp); CleanupInitClass(interp, cl, nsPtr, 0, 0); return; } /* * class create: creation of namespace + class full name * calls class object creation */ static NsfClass * PrimitiveCCreate(Tcl_Interp *interp, Tcl_Obj *nameObj, NsfClass *class) { NsfClass *cl = (NsfClass*)ckalloc(sizeof(NsfClass)); CONST char *nameString = ObjStr(nameObj); size_t length; NsfObject *object = (NsfObject*)cl; /*fprintf(stderr, "CKALLOC Class %p %s\n", cl, nameString);*/ memset(cl, 0, sizeof(NsfClass)); MEM_COUNT_ALLOC("NsfObject/NsfClass", cl); /* pass object system from meta class */ if (class) { cl->osPtr = class->osPtr; } assert(isAbsolutePath(nameString)); length = strlen(nameString); /* fprintf(stderr, "Class alloc %p '%s'\n", cl, nameString); */ /* check whether Object parent NS already exists, otherwise: error */ if (!NSCheckForParent(interp, nameString, length, class)) { ckfree((char *) cl); return 0; } object->id = Tcl_CreateObjCommand(interp, nameString, NsfObjDispatch, (ClientData)cl, TclDeletesObject); /*fprintf(stderr, "cmd alloc %p %d (%s) cl\n", object->id, Tcl_Command_refCount(object->id), nameString);*/ PrimitiveOInit(object, interp, nameString, class); object->cmdName = nameObj; /* convert cmdName to Tcl Obj of type cmdName */ /* Tcl_GetCommandFromObj(interp, obj->cmdName);*/ INCR_REF_COUNT(object->cmdName); PrimitiveCInit(cl, interp, nameString+2); ObjTrace("PrimitiveCCreate", object); return cl; } /* *---------------------------------------------------------------------- * ChangeClass -- * * Change class of a Next Scripting object. This function takes * care that one tries not to change an object into a class or vice * versa. Changing meta-class to meta-class, or class to class, or * object to object is fine, but upgrading/downgrading is not * allowed * * Results: * Tcl return code * * Side effects: * changes class of object if possible and updates instance relation. * *---------------------------------------------------------------------- */ NSF_INLINE static int ChangeClass(Tcl_Interp *interp, NsfObject *object, NsfClass *cl) { assert(object); /*fprintf(stderr, "changing %s to class %s ismeta %d\n", objectName(object), className(cl), IsMetaClass(interp, cl, 1));*/ if (cl != object->cl) { if (IsMetaClass(interp, cl, 1)) { /* Do not allow upgrading from a class to a meta-class (in other words, don't make an object to a class). To allow this, it would be necessary to reallocate the base structures. */ if (!IsMetaClass(interp, object->cl, 1)) { return NsfVarErrMsg(interp, "cannot turn object into a class", (char *) NULL); } } else { /* The target class is not a meta class. */ /*fprintf(stderr, "target class %s not a meta class, am i a class %d\n", className(cl), NsfObjectIsClass(object) );*/ if (NsfObjectIsClass(object)) { return NsfVarErrMsg(interp, "cannot turn class into an object ", (char *) NULL); } } (void)RemoveInstance(object, object->cl); AddInstance(object, cl); MixinComputeDefined(interp, object); FilterComputeDefined(interp, object); } return TCL_OK; } /* * Std object initialization: * call parameter default values * apply "-" methods (call "configure" with given arguments) * call constructor "init", if it was not called before */ static int DoObjInitialization(Tcl_Interp *interp, NsfObject *object, int objc, Tcl_Obj *CONST objv[]) { Tcl_Obj *methodObj, *savedObjResult = Tcl_GetObjResult(interp); /* save the result */ int result; INCR_REF_COUNT(savedObjResult); /* * clear INIT_CALLED flag */ object->flags &= ~NSF_INIT_CALLED; /* * call configure methods (starting with '-') */ if (CallDirectly(interp, object, NSF_o_configure_idx, &methodObj)) { ALLOC_ON_STACK(Tcl_Obj*, objc, tov); memcpy(tov+1, objv+2, sizeof(Tcl_Obj *)*(objc-2)); /* the provided name of the method is just for error reporting */ tov[0] = methodObj ? methodObj : NsfGlobalObjs[NSF_CONFIGURE]; result = NsfOConfigureMethod(interp, object, objc-1, tov); FREE_ON_STACK(Tcl_Obj*, tov); } else { result = CallMethod((ClientData) object, interp, methodObj, objc, objv+2, 0); } if (result != TCL_OK) { goto objinitexit; } /* * check, whether init was called already */ if (!(object->flags & NSF_INIT_CALLED)) { int nobjc = 0; Tcl_Obj **nobjv, *resultObj = Tcl_GetObjResult(interp); /* * Call the scripted constructor and pass the result of * configure to it as arguments */ INCR_REF_COUNT(resultObj); Tcl_ListObjGetElements(interp, resultObj, &nobjc, &nobjv); /* CallDirectly does not make much sense, since init is already defined in predefined */ methodObj = NsfMethodObj(interp, object, NSF_o_init_idx); if (methodObj) { result = CallMethod((ClientData) object, interp, methodObj, nobjc+2, nobjv, NSF_CM_NO_PROTECT); } object->flags |= NSF_INIT_CALLED; DECR_REF_COUNT(resultObj); } if (result == TCL_OK) { Tcl_SetObjResult(interp, savedObjResult); } objinitexit: DECR_REF_COUNT(savedObjResult); return result; } static int HasMetaProperty(Tcl_Interp *interp, NsfClass *cl) { return cl->object.flags & NSF_IS_ROOT_META_CLASS; } static int IsBaseClass(NsfClass *cl) { return cl->object.flags & (NSF_IS_ROOT_META_CLASS|NSF_IS_ROOT_CLASS); } static int IsMetaClass(Tcl_Interp *interp, NsfClass *cl, int withMixins) { /* check if class is a meta-class */ NsfClasses *pl, *checkList = NULL, *mixinClasses = NULL, *mc; int hasMCM = 0; /* is the class the most general meta-class? */ if (HasMetaProperty(interp, cl)) return 1; /* is the class a subclass of a meta-class? */ for (pl = ComputeOrder(cl, cl->order, Super); pl; pl = pl->nextPtr) { if (HasMetaProperty(interp, pl->cl)) return 1; } if (withMixins) { /* has the class metaclass mixed in? */ for (pl = ComputeOrder(cl, cl->order, Super); pl; pl = pl->nextPtr) { NsfClassOpt *clopt = pl->cl->opt; if (clopt && clopt->classmixins) { MixinComputeOrderFullList(interp, &clopt->classmixins, &mixinClasses, &checkList, 0); } } for (mc=mixinClasses; mc; mc = mc->nextPtr) { if (IsMetaClass(interp, mc->cl, 0)) { hasMCM = 1; break; } } NsfClassListFree(mixinClasses); NsfClassListFree(checkList); /*fprintf(stderr, "has MC returns %d, mixinClasses = %p\n", hasMCM, mixinClasses);*/ } return hasMCM; } static int IsSubType(NsfClass *subcl, NsfClass *cl) { NsfClasses *t; int success = 1; assert(cl && subcl); if (cl != subcl) { success = 0; for (t = ComputeOrder(subcl, subcl->order, Super); t && t->cl; t = t->nextPtr) { if (t->cl == cl) { success = 1; break; } } } return success; } static int HasMixin(Tcl_Interp *interp, NsfObject *object, NsfClass *cl) { if (!(object->flags & NSF_MIXIN_ORDER_VALID)) MixinComputeDefined(interp, object); if ((object->flags & NSF_MIXIN_ORDER_DEFINED_AND_VALID)) { NsfCmdList *ml; for (ml = object->mixinOrder; ml; ml = ml->nextPtr) { NsfClass *mixin = NsfGetClassFromCmdPtr(ml->cmdPtr); if (mixin == cl) { return 1; } } } return 0; } extern int NsfCreateObject(Tcl_Interp *interp, Tcl_Obj *nameObj, Nsf_Class *class) { NsfClass *cl = (NsfClass*) class; Tcl_Obj *methodObj; int result; INCR_REF_COUNT(nameObj); if (CallDirectly(interp, &cl->object, NSF_c_create_idx, &methodObj)) { result = NsfCCreateMethod(interp, cl, ObjStr(nameObj), 1, &nameObj); } else { result = NsfCallMethodWithArgs((ClientData)cl, interp, methodObj, nameObj, 1, 0, 0); } DECR_REF_COUNT(nameObj); return result; } extern int NsfCreate(Tcl_Interp *interp, Nsf_Class *class, Tcl_Obj *nameObj, ClientData clientData, int objc, Tcl_Obj *CONST objv[]) { NsfClass *cl = (NsfClass *) class; int result; ALLOC_ON_STACK(Tcl_Obj *, objc+2, ov); INCR_REF_COUNT(nameObj); ov[0] = NULL; ov[1] = nameObj; if (objc>0) { memcpy(ov+2, objv, sizeof(Tcl_Obj *)*objc); } result = NsfCCreateMethod(interp, cl, ObjStr(nameObj), objc+2, ov); FREE_ON_STACK(Tcl_Obj*, ov); DECR_REF_COUNT(nameObj); return result; } int NsfDeleteObject(Tcl_Interp *interp, Nsf_Object *object1) { NsfObject *object = (NsfObject *) object1; return DispatchDestroyMethod(interp, object, 0); } extern int NsfUnsetInstVar2(Nsf_Object *object1, Tcl_Interp *interp, CONST char *name1, CONST char *name2, int flgs) { NsfObject *object = (NsfObject *) object1; int result; Tcl_CallFrame frame, *framePtr = &frame; Nsf_PushFrameObj(interp, object, framePtr); if (object->nsPtr) flgs |= TCL_NAMESPACE_ONLY; result = Tcl_UnsetVar2(interp, name1, name2, flgs); Nsf_PopFrameObj(interp, framePtr); return result; } static int GetInstVarIntoCurrentScope(Tcl_Interp *interp, const char *cmdName, NsfObject *object, Tcl_Obj *varName, Tcl_Obj *newName) { Var *varPtr = NULL, *otherPtr = NULL, *arrayPtr; int new = 0, flgs = TCL_LEAVE_ERR_MSG; Tcl_CallFrame *varFramePtr; Tcl_CallFrame frame, *framePtr = &frame; char *varNameString; if (CheckVarName(interp, ObjStr(varName)) != TCL_OK) { return TCL_ERROR; } Nsf_PushFrameObj(interp, object, framePtr); if (object->nsPtr) { flgs = flgs|TCL_NAMESPACE_ONLY; } otherPtr = TclObjLookupVar(interp, varName, NULL, flgs, "define", /*createPart1*/ 1, /*createPart2*/ 1, &arrayPtr); Nsf_PopFrameObj(interp, framePtr); if (otherPtr == NULL) { return NsfVarErrMsg(interp, "can't import variable ", ObjStr(varName), " into method scope: can't find variable on ", objectName(object), (char *) NULL); } /* * if newName == NULL -> there is no alias, use varName * as target link name */ if (newName == NULL) { /* * Variable link into namespace cannot be an element in an array. * see Tcl_VariableObjCmd ... */ if (arrayPtr) { return NsfVarErrMsg(interp, "can't make instance variable ", ObjStr(varName), " on ", objectName(object), ": Variable cannot be an element in an array;", " use e.g. an alias.", (char *) NULL); } newName = varName; } varNameString = ObjStr(newName); varFramePtr = (Tcl_CallFrame *)Tcl_Interp_varFramePtr(interp); /* * If we are executing inside a Tcl procedure, create a local * variable linked to the new namespace variable "varName". */ if (varFramePtr && (Tcl_CallFrame_isProcCallFrame(varFramePtr) & FRAME_IS_PROC)) { varPtr = (Var *)CompiledLocalsLookup((CallFrame *)varFramePtr, varNameString); if (varPtr == NULL) { /* look in frame's local var hashtable */ TclVarHashTable *varTablePtr = Tcl_CallFrame_varTablePtr(varFramePtr); if (varTablePtr == NULL) { /* * The variable table does not exist. This seems to be is the * first access to a variable on this frame. We create the and * initialize the variable hash table and update the object */ /*fprintf(stderr, "+++ create varTable in GetInstVarIntoCurrentScope\n");*/ Tcl_CallFrame_varTablePtr(varFramePtr) = varTablePtr = VarHashTableCreate(); } varPtr = VarHashCreateVar(varTablePtr, newName, &new); } /* * if we define an alias (newName != varName), be sure that * the target does not exist already */ if (!new) { /*fprintf(stderr, "GetIntoScope createalias\n");*/ if (varPtr == otherPtr) return NsfVarErrMsg(interp, "can't instvar to variable itself", (char *) NULL); if (TclIsVarLink(varPtr)) { /* we try to make the same instvar again ... this is ok */ Var *linkPtr = valueOfVar(Var, varPtr, linkPtr); if (linkPtr == otherPtr) { return TCL_OK; } /*fprintf(stderr, "linkvar flags=%x\n", linkPtr->flags); Tcl_Panic("new linkvar %s... When does this happen?", ObjStr(newName), NULL);*/ /* We have already a variable with the same name imported from a different object. Get rid of this old variable */ VarHashRefCount(linkPtr)--; if (TclIsVarUndefined(linkPtr)) { TclCleanupVar(linkPtr, (Var *) NULL); } } else if (!TclIsVarUndefined(varPtr)) { return NsfVarErrMsg(interp, "variable '", varNameString, "' exists already", (char *) NULL); } else if (TclIsVarTraced(varPtr)) { return NsfVarErrMsg(interp, "variable '", varNameString, "' has traces: can't use for instvar", (char *) NULL); } } TclSetVarLink(varPtr); TclClearVarUndefined(varPtr); varPtr->value.linkPtr = otherPtr; VarHashRefCount(otherPtr)++; /* fprintf(stderr, "defining an alias var='%s' in obj %s fwd %d flags %x isLink %d isTraced %d isUndefined %d\n", ObjStr(newName), objectName(object), 0, varPtr->flags, TclIsVarLink(varPtr), TclIsVarTraced(varPtr), TclIsVarUndefined(varPtr)); */ } else { return NsfVarErrMsg(interp, cmdName, " cannot import variable '", varNameString, "' into method scope; not called from a method frame", (char *) NULL); } return TCL_OK; } extern int NsfRemoveObjectMethod(Tcl_Interp *interp, Nsf_Object *object1, CONST char *methodName) { NsfObject *object = (NsfObject*) object1; AliasDelete(interp, object->cmdName, methodName, 1); if (object->opt) AssertionRemoveProc(object->opt->assertions, methodName); if (object->nsPtr) { int rc = NSDeleteCmd(interp, object->nsPtr, methodName); if (rc < 0) return NsfVarErrMsg(interp, objectName(object), " cannot delete method '", methodName, "' of object ", objectName(object), (char *) NULL); } return TCL_OK; } extern int NsfRemoveClassMethod(Tcl_Interp *interp, Nsf_Class *class, CONST char *methodName) { NsfClass *cl = (NsfClass*) class; NsfClassOpt *opt = cl->opt; int rc; AliasDelete(interp, class->object.cmdName, methodName, 0); if (opt && opt->assertions) AssertionRemoveProc(opt->assertions, methodName); rc = NSDeleteCmd(interp, cl->nsPtr, methodName); if (rc < 0) return NsfVarErrMsg(interp, className(cl), " cannot delete method '", methodName, "' of class ", className(cl), (char *) NULL); return TCL_OK; } /* * obj/cl ClientData setter/getter */ extern void NsfSetObjClientData(Nsf_Object *object1, ClientData data) { NsfObject *object = (NsfObject*) object1; NsfObjectOpt *opt = NsfRequireObjectOpt(object); opt->clientData = data; } extern ClientData NsfGetObjClientData(Nsf_Object *object1) { NsfObject *object = (NsfObject*) object1; return (object && object->opt) ? object->opt->clientData : NULL; } extern void NsfSetClassClientData(Nsf_Class *cli, ClientData data) { NsfClass *cl = (NsfClass*) cli; NsfRequireClassOpt(cl); cl->opt->clientData = data; } extern ClientData NsfGetClassClientData(Nsf_Class *cli) { NsfClass *cl = (NsfClass*) cli; return (cl && cl->opt) ? cl->opt->clientData : NULL; } static int SetInstVar(Tcl_Interp *interp, NsfObject *object, Tcl_Obj *nameObj, Tcl_Obj *valueObj) { Tcl_Obj *result; int flags = (object->nsPtr) ? TCL_LEAVE_ERR_MSG|TCL_NAMESPACE_ONLY : TCL_LEAVE_ERR_MSG; Tcl_CallFrame frame, *framePtr = &frame; Nsf_PushFrameObj(interp, object, framePtr); if (valueObj == NULL) { result = Tcl_ObjGetVar2(interp, nameObj, NULL, flags); } else { /*fprintf(stderr, "setvar in obj %s: name %s = %s\n", objectName(object), ObjStr(nameObj), ObjStr(value));*/ result = Tcl_ObjSetVar2(interp, nameObj, NULL, valueObj, flags); } Nsf_PopFrameObj(interp, framePtr); if (result) { Tcl_SetObjResult(interp, result); return TCL_OK; } return TCL_ERROR; } static int NsfSetterMethod(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { SetterCmdClientData *cd = (SetterCmdClientData*)clientData; NsfObject *object = cd->object; if (!object) return NsfObjErrType(interp, objv[0], "object", ObjStr(objv[0])); if (objc > 2) return NsfObjErrArgCnt(interp, object->cmdName, objv[0], "?value?"); if (cd->paramsPtr && objc == 2) { Tcl_Obj *outObjPtr; int result, flags = 0; ClientData checkedData; result = ArgumentCheck(interp, objv[1], cd->paramsPtr, RUNTIME_STATE(interp)->doCheckArguments, &flags, &checkedData, &outObjPtr); if (result == TCL_OK) { result = SetInstVar(interp, object, objv[0], outObjPtr); if (flags & NSF_PC_MUST_DECR) { DECR_REF_COUNT(outObjPtr); } } return result; } else { return SetInstVar(interp, object, objv[0], objc == 2 ? objv[1] : NULL); } } static int ForwardArg(Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], Tcl_Obj *ForwardArgObj, ForwardCmdClientData *tcd, Tcl_Obj **out, Tcl_Obj **freeList, int *inputArg, int *mapvalue, int firstPosArg, int *outputincr) { CONST char *ForwardArgString = ObjStr(ForwardArgObj), *p; int totalargs = objc + tcd->nr_args - 1; char c = *ForwardArgString, c1; /* per default every ForwardArgString from the processed list corresponds to exactly one ForwardArgString in the computed final list */ *outputincr = 1; p = ForwardArgString; /*fprintf(stderr, "ForwardArg: processing '%s'\n", ForwardArgString);*/ if (c == '%' && *(ForwardArgString+1) == '@') { char *remainder = NULL; long pos; ForwardArgString += 2; pos = strtol(ForwardArgString, &remainder, 0); /*fprintf(stderr, "strtol('%s) returned %ld '%s'\n", ForwardArgString, pos, remainder);*/ if (ForwardArgString == remainder && *ForwardArgString == 'e' && !strncmp(ForwardArgString, "end", 3)) { pos = -1; remainder += 3; } else if (pos < 0) { pos --; } if (ForwardArgString == remainder || abs(pos) > totalargs) { return NsfVarErrMsg(interp, "forward: invalid index specified in argument ", ObjStr(ForwardArgObj), (char *) NULL); } if (!remainder || *remainder != ' ') { return NsfVarErrMsg(interp, "forward: invaild syntax in '", ObjStr(ForwardArgObj), "' use: %@ ", (char *) NULL); } ForwardArgString = ++remainder; /* in case we address from the end, we reduct further to distinguish from -1 (void) */ if (pos<0) pos--; /*fprintf(stderr, "remainder = '%s' pos = %ld\n", remainder, pos);*/ *mapvalue = pos; ForwardArgString = remainder; c = *ForwardArgString; } if (c == '%') { Tcl_Obj *list = NULL, **listElements; int nrArgs = objc-1, nrPosArgs = objc-firstPosArg, nrElements = 0; char *firstActualArgument = nrArgs>0 ? ObjStr(objv[1]) : NULL; c = *++ForwardArgString; c1 = *(ForwardArgString+1); if (c == 's' && !strcmp(ForwardArgString, "self")) { *out = tcd->object->cmdName; } else if (c == 'p' && !strcmp(ForwardArgString, "proc")) { CONST char *methodName = ObjStr(objv[0]); /* if we dispatch a method via ".", we do not want to see the "." in the %proc, e.g. for the interceptor slots (such as .mixin, ... */ if (FOR_COLON_RESOLVER(methodName)) { *out = Tcl_NewStringObj(methodName + 1, -1); } else { *out = objv[0]; } } else if (c == '1' && (c1 == '\0' || c1 == ' ')) { if (c1 != '\0') { if (Tcl_ListObjIndex(interp, ForwardArgObj, 1, &list) != TCL_OK) { return NsfVarErrMsg(interp, "forward: %1 must be followed by a valid list, given: '", ObjStr(ForwardArgObj), "'", (char *) NULL); } if (Tcl_ListObjGetElements(interp, list, &nrElements, &listElements) != TCL_OK) { return NsfVarErrMsg(interp, "forward: %1 contains invalid list '", ObjStr(list), "'", (char *) NULL); } } else if (tcd->subcommands) { /* deprecated part */ if (Tcl_ListObjGetElements(interp, tcd->subcommands, &nrElements, &listElements) != TCL_OK) { return NsfVarErrMsg(interp, "forward: %1 contains invalid list '", ObjStr(list), "'", (char *) NULL); } } /*fprintf(stderr, "nrElements=%d, nra=%d firstPos %d objc %d\n", nrElements, nrArgs, firstPosArg, objc);*/ if (nrElements > nrPosArgs) { /* insert default subcommand depending on number of arguments */ /*fprintf(stderr, "inserting listElements[%d] '%s'\n", nrPosArgs, ObjStr(listElements[nrPosArgs]));*/ *out = listElements[nrPosArgs]; } else if (objc<=1) { return NsfObjErrArgCnt(interp, objv[0], NULL, "option"); } else { /*fprintf(stderr, "copying %%1: '%s'\n", ObjStr(objv[firstPosArg]));*/ *out = objv[firstPosArg]; *inputArg = firstPosArg+1; } } else if (c == '-') { CONST char *firstElementString; int i, insertRequired, done = 0; /*fprintf(stderr, "process flag '%s'\n", firstActualArgument);*/ if (Tcl_ListObjGetElements(interp, ForwardArgObj, &nrElements, &listElements) != TCL_OK) { return NsfVarErrMsg(interp, "forward: '", ForwardArgString, "' is not a valid list", (char *) NULL); } if (nrElements < 1 || nrElements > 2) { return NsfVarErrMsg(interp, "forward: '", ForwardArgString, "' must contain 1 or 2 arguments", (char *) NULL); } firstElementString = ObjStr(listElements[0]); firstElementString++; /* we skip the dash */ if (firstActualArgument && *firstActualArgument == '-') { /*fprintf(stderr, "we have a flag in first argument '%s'\n", firstActualArgument);*/ for (i = 1; i < firstPosArg; i++) { if (strcmp(firstElementString, ObjStr(objv[i])) == 0) { /*fprintf(stderr, "We have a MATCH for '%s' oldInputArg %d\n", ForwardArgString, *inputArg);*/ *out = objv[i]; /* %1 will start at a different place. Proceed if necessary to firstPosArg */ if (*inputArg < firstPosArg) { *inputArg = firstPosArg; } done = 1; break; } } } if (!done) { /* We have a flag in the actual arguments that does not match. * We proceed to the actual arguments without dashes. */ if (*inputArg < firstPosArg) { *inputArg = firstPosArg; } /* * If the user requested we output the argument also when not * given in the argument list. */ if (nrElements == 2 && Tcl_GetIntFromObj(interp, listElements[1], &insertRequired) == TCL_OK && insertRequired) { /* no match, but insert of flag is required */ /*fprintf(stderr, "no match, but insert of %s required\n", firstElementString);*/ *out = Tcl_NewStringObj(firstElementString, -1); *outputincr = 1; goto add_to_freelist; } else { /* no match, no insert of flag required, we skip the * forwarder option and output nothing */ /*fprintf(stderr, "no match, nrElements %d insert req %d\n", nrElements, insertRequired);*/ *outputincr = 0; } } } else if (c == 'a' && !strncmp(ForwardArgString, "argcl", 4)) { if (Tcl_ListObjIndex(interp, ForwardArgObj, 1, &list) != TCL_OK) { return NsfVarErrMsg(interp, "forward: %argclindex must by a valid list, given: '", ForwardArgString, "'", (char *) NULL); } if (Tcl_ListObjGetElements(interp, list, &nrElements, &listElements) != TCL_OK) { return NsfVarErrMsg(interp, "forward: %argclindex contains invalid list '", ObjStr(list), "'", (char *) NULL); } if (nrArgs >= nrElements) { return NsfVarErrMsg(interp, "forward: not enough elements in specified list of ARGC argument ", ForwardArgString, (char *) NULL); } *out = listElements[nrArgs]; } else if (c == '%') { Tcl_Obj *newarg = Tcl_NewStringObj(ForwardArgString, -1); *out = newarg; goto add_to_freelist; } else { /* evaluating given command */ int result; /*fprintf(stderr, "evaluating '%s'\n", ForwardArgString);*/ if ((result = Tcl_EvalEx(interp, ForwardArgString, -1, 0)) != TCL_OK) return result; *out = Tcl_DuplicateObj(Tcl_GetObjResult(interp)); /*fprintf(stderr, "result = '%s'\n", ObjStr(*out));*/ goto add_to_freelist; } } else { if (p == ForwardArgString) *out = ForwardArgObj; else { Tcl_Obj *newarg = Tcl_NewStringObj(ForwardArgString, -1); *out = newarg; goto add_to_freelist; } } return TCL_OK; add_to_freelist: if (!*freeList) { *freeList = Tcl_NewListObj(1, out); INCR_REF_COUNT(*freeList); } else Tcl_ListObjAppendElement(interp, *freeList, *out); return TCL_OK; } static int CallForwarder(ForwardCmdClientData *tcd, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { ClientData clientData; int result; NsfObject *object = tcd->object; Tcl_CallFrame frame, *framePtr = &frame; if (tcd->verbose) { Tcl_Obj *cmd = Tcl_NewListObj(objc, objv); fprintf(stderr, "forwarder calls '%s'\n", ObjStr(cmd)); DECR_REF_COUNT(cmd); } if (tcd->objscope) { Nsf_PushFrameObj(interp, object, framePtr); } if (tcd->objProc) { #if 1 || !defined(NRE) result = (*tcd->objProc)(tcd->clientData, interp, objc, objv); #else result = Tcl_NRCallObjProc(interp, tcd->objProc, tcd->clientData, objc, objv); #endif } else if (IsNsfTclObj(interp, tcd->cmdName, (NsfObject**)&clientData)) { /*fprintf(stderr, "Nsf object %s, objc=%d\n", ObjStr(tcd->cmdName), objc);*/ result = NsfObjDispatch(clientData, interp, objc, objv); } else { /*fprintf(stderr, "CallForwarder: no nsf object %s\n", ObjStr(tcd->cmdName));*/ result = Tcl_EvalObjv(interp, objc, objv, 0); } if (tcd->objscope) { Nsf_PopFrameObj(interp, framePtr); } if (result == TCL_ERROR && tcd && tcd->onerror) { Tcl_Obj *ov[2]; ov[0] = tcd->onerror; ov[1] = Tcl_GetObjResult(interp); INCR_REF_COUNT(ov[1]); /*Tcl_EvalObjEx(interp, tcd->onerror, TCL_EVAL_DIRECT);*/ Tcl_EvalObjv(interp, 2, ov, 0); DECR_REF_COUNT(ov[1]); } return result; } static int NsfForwardMethod(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { ForwardCmdClientData *tcd = (ForwardCmdClientData *)clientData; int result, j, inputArg = 1, outputArg = 0; if (!tcd || !tcd->object) return NsfObjErrType(interp, objv[0], "object", ""); if (tcd->passthrough) { /* two short cuts for simple cases */ /* early binding, cmd *resolved, we have to care only for objscope */ return CallForwarder(tcd, interp, objc, objv); } else if (!tcd->args && *(ObjStr(tcd->cmdName)) != '%') { /* we have ony to replace the method name with the given cmd name */ ALLOC_ON_STACK(Tcl_Obj*, objc, ov); /*fprintf(stderr, "+++ forwardMethod must subst \n");*/ memcpy(ov, objv, sizeof(Tcl_Obj *)*objc); ov[0] = tcd->cmdName; result = CallForwarder(tcd, interp, objc, ov); FREE_ON_STACK(Tcl_Obj *, ov); return result; } else { Tcl_Obj **ov, *freeList=NULL; int outputincr, firstPosArg=1, totalargs = objc + tcd->nr_args + 3; ALLOC_ON_STACK(Tcl_Obj*, totalargs, OV); ALLOC_ON_STACK(int, totalargs, objvmap); /*fprintf(stderr, "+++ forwardMethod standard case, allocated %d args\n", totalargs);*/ ov = &OV[1]; if (tcd->needobjmap) { memset(objvmap, -1, sizeof(int)*totalargs); } /* the first argument is always the command, to which we forward */ if ((result = ForwardArg(interp, objc, objv, tcd->cmdName, tcd, &ov[outputArg], &freeList, &inputArg, &objvmap[outputArg], firstPosArg, &outputincr)) != TCL_OK) { goto exitforwardmethod; } outputArg += outputincr; /* if we have nonpos args, determine the first pos arg position for %1 */ if (tcd->hasNonposArgs) { firstPosArg = objc; for (j=outputArg; jargs) { /* copy argument list from definition */ Tcl_Obj **listElements; int nrElements; Tcl_ListObjGetElements(interp, tcd->args, &nrElements, &listElements); for (j=0; jnr_subcommands=%d size=%d\n", objc, tcd->nr_subcommands, objc+ 2 );*/ if (objc-inputArg>0) { /*fprintf(stderr, " copying remaining %d args starting at [%d]\n", objc-inputArg, outputArg);*/ memcpy(ov+outputArg, objv+inputArg, sizeof(Tcl_Obj *)*(objc-inputArg)); } else { /*fprintf(stderr, " nothing to copy, objc=%d, inputArg=%d\n", objc, inputArg);*/ } if (tcd->needobjmap) { /* we have to set the adressing relative from the end; -2 means last, -3 element before last, etc. */ int max = objc + tcd->nr_args - inputArg; for (j=0; jneedobjmap) { for (j=0; jpos) { for(i=j; i>pos; i--) { /*fprintf(stderr, "...moving right %d to %d\n", i-1, i);*/ ov[i] = ov[i-1]; objvmap[i] = objvmap[i-1]; } } else { for(i=j; i %s\n", pos, ObjStr(tmp));*/ ov[pos] = tmp; objvmap[pos] = -1; } } if (tcd->prefix) { /* prepend a prefix for the subcommands to avoid name clashes */ Tcl_Obj *methodName = Tcl_DuplicateObj(tcd->prefix); Tcl_AppendObjToObj(methodName, ov[1]); ov[1] = methodName; INCR_REF_COUNT(ov[1]); } #if 0 for(j=0; jcmdName; result = CallForwarder(tcd, interp, objc, ov); if (tcd->prefix) {DECR_REF_COUNT(ov[1]);} exitforwardmethod: if (freeList) {DECR_REF_COUNT(freeList);} FREE_ON_STACK(int,objvmap); FREE_ON_STACK(Tcl_Obj*,OV); } return result; } /* * copied from Tcl, since not exported */ static char * VwaitVarProc( ClientData clientData, /* Pointer to integer to set to 1. */ Tcl_Interp *interp, /* Interpreter containing variable. */ char *name1, /* Name of variable. */ char *name2, /* Second part of variable name. */ int flags) /* Information about what happened. */ { int *donePtr = (int *) clientData; *donePtr = 1; return (char *) NULL; } static int NsfProcAliasMethod(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { AliasCmdClientData *tcd = (AliasCmdClientData *)clientData; NsfObject *self = GetSelfObj(interp); CONST char *methodName = ObjStr(objv[0]); if (self == NULL) { return NsfVarErrMsg(interp, "no object active for alias '", Tcl_GetCommandName(interp, tcd->aliasCmd), "'; don't call aliased methods via namespace paths", (char *) NULL); } return MethodDispatch((ClientData)self, interp, objc, objv, tcd->aliasedCmd, self, tcd->class, methodName, 0); } static int NsfObjscopedMethod(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { AliasCmdClientData *tcd = (AliasCmdClientData *)clientData; NsfObject *object = tcd->object; Tcl_CallFrame frame, *framePtr = &frame; int result; /*fprintf(stderr, "objscopedMethod obj=%p %s, ptr=%p\n", object, objectName(object), tcd->objProc);*/ Nsf_PushFrameObj(interp, object, framePtr); #if !defined(NRE) result = (*tcd->objProc)(tcd->clientData, interp, objc, objv); #else result = Tcl_NRCallObjProc(interp, tcd->objProc, tcd->clientData, objc, objv); #endif Nsf_PopFrameObj(interp, framePtr); return result; } static void SetterCmdDeleteProc(ClientData clientData) { SetterCmdClientData *setterClientData = (SetterCmdClientData *)clientData; if (setterClientData->paramsPtr) { ParamsFree(setterClientData->paramsPtr); } FREE(SetterCmdClientData, setterClientData); } static void AliasCmdDeleteProc(ClientData clientData) { AliasCmdClientData *tcd = (AliasCmdClientData *)clientData; ImportRef *refPtr, *prevPtr = NULL; /* * Since we just get the clientData, we have to obtain interp, * object, methodName and per-object from tcd; the obj might be * deleted already. We need as well at least still the global * namespace. */ if (tcd->interp && ((Interp *)(tcd->interp))->globalNsPtr && RUNTIME_STATE(tcd->interp)->exitHandlerDestroyRound != NSF_EXITHANDLER_ON_PHYSICAL_DESTROY) { CONST char *methodName = Tcl_GetCommandName(tcd->interp, tcd->aliasCmd); AliasDelete(tcd->interp, tcd->cmdName, methodName, tcd->class == NULL); } /*fprintf(stderr, "AliasCmdDeleteProc\n");*/ if (tcd->cmdName) {DECR_REF_COUNT(tcd->cmdName);} if (tcd->aliasedCmd) { Command *aliasedCmd = (Command *)(tcd->aliasedCmd); /* * Clear the aliasCmd from the imported-ref chain of the aliased * (or real) cmd. This widely resembles what happens in the * DeleteImportedCmd() (see tclNamesp.c), however, as we do not * provide for ImportedCmdData client data etc., we cannot * directly use it. */ for (refPtr = aliasedCmd->importRefPtr; refPtr; refPtr = refPtr->nextPtr) { if (refPtr->importedCmdPtr == (Command *) tcd->aliasCmd) { if (prevPtr == NULL) { aliasedCmd->importRefPtr = refPtr->nextPtr; } else { prevPtr->nextPtr = refPtr->nextPtr; } ckfree((char *) refPtr); break; } prevPtr = refPtr; } } FREE(AliasCmdClientData, tcd); } typedef enum {NO_DASH, SKALAR_DASH, LIST_DASH} dashArgType; static dashArgType IsDashArg(Tcl_Interp *interp, Tcl_Obj *obj, int firstArg, CONST char **methodName, int *objc, Tcl_Obj **objv[]) { CONST char *flag; assert(obj); if (obj->typePtr == listType) { if (Tcl_ListObjGetElements(interp, obj, objc, objv) == TCL_OK && *objc>1) { flag = ObjStr(*objv[0]); /*fprintf(stderr, "we have a list starting with '%s'\n", flag);*/ if (*flag == '-') { *methodName = flag+1; return LIST_DASH; } } } flag = ObjStr(obj); /*fprintf(stderr, "we have a scalar '%s'\n", flag);*/ if ((*flag == '-') && isalpha(*((flag)+1))) { if (firstArg) { /* if the argument contains a space, try to split */ CONST char *p= flag+1; while (*p && *p != ' ') p++; if (*p == ' ') { if (Tcl_ListObjGetElements(interp, obj, objc, objv) == TCL_OK) { *methodName = ObjStr(*objv[0]); if (**methodName == '-') {(*methodName)++ ;} return LIST_DASH; } } } *methodName = flag+1; *objc = 1; return SKALAR_DASH; } return NO_DASH; } static int CallConfigureMethod(Tcl_Interp *interp, NsfObject *object, CONST char *methodName, int argc, Tcl_Obj *CONST argv[]) { int result; Tcl_Obj *methodObj = Tcl_NewStringObj(methodName, -1); /* fprintf(stderr, "CallConfigureMethod method %s->'%s' level %d, argc %d\n", objectName(object), methodName, level, argc);*/ if (isInitString(methodName)) { object->flags |= NSF_INIT_CALLED; } Tcl_ResetResult(interp); INCR_REF_COUNT(methodObj); result = CallMethod((ClientData)object, interp, methodObj, argc, argv, NSF_CM_NO_UNKNOWN); DECR_REF_COUNT(methodObj); /*fprintf(stderr, "method '%s' called args: %d o=%p, result=%d %d\n", methodName, argc+1, obj, result, TCL_ERROR);*/ if (result != TCL_OK) { Tcl_Obj *res = Tcl_DuplicateObj(Tcl_GetObjResult(interp)); /* save the result */ INCR_REF_COUNT(res); NsfVarErrMsg(interp, ObjStr(res), " during '", objectName(object), " ", methodName, "'", (char *) NULL); DECR_REF_COUNT(res); } return result; } /* * class method implementations */ static int IsRootNamespace(Tcl_Interp *interp, Tcl_Namespace *nsPtr) { NsfObjectSystem *osPtr; for (osPtr = RUNTIME_STATE(interp)->objectSystems; osPtr; osPtr = osPtr->nextPtr) { Tcl_Command cmd = osPtr->rootClass->object.id; if ((Tcl_Namespace *)((Command *)cmd)->nsPtr == nsPtr) { return 1; } } return 0; } static Tcl_Namespace * CallingNameSpace(Tcl_Interp *interp) { Tcl_CallFrame *framePtr; Tcl_Namespace *nsPtr; /*tcl85showStack(interp);*/ /* * Find last incovation outside the Next Scripting system namespaces. For * example, the pre defined slot handlers for relations (defined in * the too namespace) handle mixin and class registration. etc. If we * would use this namespace, we would resolve non-fully-qualified * names against the root namespace). */ for (framePtr = activeProcFrame((Tcl_CallFrame *)Tcl_Interp_varFramePtr(interp)); framePtr; framePtr = Tcl_CallFrame_callerVarPtr(framePtr)) { nsPtr = Tcl_CallFrame_nsPtr(framePtr); if (IsRootNamespace(interp, nsPtr)) { /*fprintf(stderr, "... %p skip %s\n", framePtr, nsPtr->fullName);*/ continue; } /*fprintf(stderr, "... %p take %s\n", framePtr, nsPtr->fullName); */ break; } if (!framePtr) { nsPtr = Tcl_GetGlobalNamespace(interp); } /*fprintf(stderr, " **** CallingNameSpace: returns %p %s framePtr %p\n", nsPtr, nsPtr ? nsPtr->fullName:"(null)", framePtr);*/ return nsPtr; } /*********************************** * argument parser ***********************************/ #include "tclAPI.h" static int ArgumentError(Tcl_Interp *interp, CONST char *errorMsg, NsfParam CONST *paramPtr, Tcl_Obj *cmdNameObj, Tcl_Obj *methodObj) { Tcl_Obj *argStringObj = ParamDefsSyntax(interp, paramPtr); NsfObjWrongArgs(interp, errorMsg, cmdNameObj, methodObj, ObjStr(argStringObj)); DECR_REF_COUNT(argStringObj); return TCL_ERROR; } static int ArgumentCheckHelper(Tcl_Interp *interp, Tcl_Obj *objPtr, struct NsfParam CONST *pPtr, int *flags, ClientData *clientData, Tcl_Obj **outObjPtr) { int objc, i, result; Tcl_Obj **ov; /*fprintf(stderr, "ArgumentCheckHelper\n");*/ assert(pPtr->flags & NSF_ARG_MULTIVALUED); result = Tcl_ListObjGetElements(interp, objPtr, &objc, &ov); if (result != TCL_OK) { return result; } *outObjPtr = Tcl_NewListObj(0, NULL); INCR_REF_COUNT(*outObjPtr); for (i=0; iflags & NSF_ARG_ALLOW_EMPTY && *valueString == '\0') { result = ConvertToString(interp, ov[i], pPtr, clientData, &elementObjPtr); } else { result = (*pPtr->converter)(interp, ov[i], pPtr, clientData, &elementObjPtr); } /*fprintf(stderr, "ArgumentCheckHelper convert %s result %d (%s)\n", valueString, result, ObjStr(elementObjPtr));*/ if (result == TCL_OK) { Tcl_ListObjAppendElement(interp, *outObjPtr, elementObjPtr); } else { Tcl_Obj *resultObj = Tcl_GetObjResult(interp); INCR_REF_COUNT(resultObj); NsfVarErrMsg(interp, "invalid value in \"", ObjStr(objPtr), "\": ", ObjStr(resultObj), (char *) NULL); DECR_REF_COUNT(resultObj); DECR_REF_COUNT(*outObjPtr); *flags &= ~NSF_PC_MUST_DECR; *outObjPtr = objPtr; break; } } return result; } static int ArgumentCheck(Tcl_Interp *interp, Tcl_Obj *objPtr, struct NsfParam CONST *pPtr, int doCheck, int *flags, ClientData *clientData, Tcl_Obj **outObjPtr) { int result; if (doCheck == 0 && (pPtr->flags & (NSF_ARG_IS_CONVERTER|NSF_ARG_INITCMD)) == 0) { /*fprintf(stderr, "*** omit argument check for arg %s flags %.6x\n",pPtr->name, pPtr->flags);*/ *outObjPtr = objPtr; *clientData = ObjStr(objPtr); *flags = 0; return TCL_OK; } if (pPtr->flags & NSF_ARG_MULTIVALUED) { int objc, i; Tcl_Obj **ov; /* * In the multivalued case, we have either to check a list of * values or to build a new list of values (in case, the converter * normalizes the values). */ result = Tcl_ListObjGetElements(interp, objPtr, &objc, &ov); if (result != TCL_OK) { return result; } /* * Default assumption: outObjPtr is not modified, in cases where * necessary, we switch to the helper function */ *outObjPtr = objPtr; for (i=0; iflags & NSF_ARG_ALLOW_EMPTY && *valueString == '\0') { result = ConvertToString(interp, ov[i], pPtr, clientData, &elementObjPtr); } else { result = (*pPtr->converter)(interp, ov[i], pPtr, clientData, &elementObjPtr); } if (result == TCL_OK) { if (ov[i] != elementObjPtr) { /* The elementObjPtr differs from the input tcl_obj, we switch to the version of this handler building an output list */ /*fprintf(stderr, "switch to output list construction for value %s\n", ObjStr(elementObjPtr));*/ *flags |= NSF_PC_MUST_DECR; result = ArgumentCheckHelper(interp, objPtr, pPtr, flags, clientData, outObjPtr); break; } } else { Tcl_Obj *resultObj = Tcl_GetObjResult(interp); INCR_REF_COUNT(resultObj); NsfVarErrMsg(interp, "invalid value in \"", ObjStr(objPtr), "\": ", ObjStr(resultObj), (char *) NULL); DECR_REF_COUNT(resultObj); break; } } } else { const char *valueString = ObjStr(objPtr); if (pPtr->flags & NSF_ARG_ALLOW_EMPTY && *valueString == '\0') { result = ConvertToString(interp, objPtr, pPtr, clientData, outObjPtr); } else { result = (*pPtr->converter)(interp, objPtr, pPtr, clientData, outObjPtr); } } return result; } static int ArgumentDefaults(ParseContext *pcPtr, Tcl_Interp *interp, NsfParam CONST *ifd, int nrParams) { NsfParam CONST *pPtr; int i; for (pPtr = ifd, i=0; i %p %p, default %s\n", pPtr->name, pPtr->flags & NSF_ARG_REQUIRED, pPtr, pcPtr->clientData[i], pcPtr->objv[i], pPtr->defaultValue ? ObjStr(pPtr->defaultValue) : "NONE");*/ if (pcPtr->objv[i]) { /* we got an actual value, which was already checked by objv parser */ /*fprintf(stderr, "setting passed value for %s to '%s'\n", pPtr->name, ObjStr(pcPtr->objv[i]));*/ if (pPtr->converter == ConvertToSwitch) { int bool; Tcl_GetBooleanFromObj(interp, pPtr->defaultValue, &bool); pcPtr->objv[i] = Tcl_NewBooleanObj(!bool); } } else { /* no valued passed, check if default is available */ if (pPtr->defaultValue) { int mustDecrNewValue; Tcl_Obj *newValue = pPtr->defaultValue; ClientData checkedData; /* we have a default, do we have to subst it? */ if (pPtr->flags & NSF_ARG_SUBST_DEFAULT) { int result = SubstValue(interp, pcPtr->object, &newValue); if (result != TCL_OK) { return result; } /*fprintf(stderr, "attribute %s default %p %s => %p '%s'\n", pPtr->name, pPtr->defaultValue, ObjStr(pPtr->defaultValue), newValue, ObjStr(newValue));*/ /* the according DECR is performed by ParseContextRelease() */ INCR_REF_COUNT(newValue); mustDecrNewValue = 1; pcPtr->flags[i] |= NSF_PC_MUST_DECR; pcPtr->mustDecr = 1; } else { mustDecrNewValue = 0; } pcPtr->objv[i] = newValue; /*fprintf(stderr, "==> setting default value '%s' for var '%s' flag %d type %s conv %p\n", ObjStr(newValue), pPtr->name, pPtr->flags & NSF_ARG_INITCMD, pPtr->type, pPtr->converter);*/ /* Check the default value, unless we have an INITCMD or METHOD */ if ((pPtr->flags & (NSF_ARG_INITCMD|NSF_ARG_METHOD)) == 0) { int mustDecrList = 0; if (ArgumentCheck(interp, newValue, pPtr, RUNTIME_STATE(interp)->doCheckArguments, &mustDecrList, &checkedData, &pcPtr->objv[i]) != TCL_OK) { return TCL_ERROR; } if (pcPtr->objv[i] != newValue) { /* The output tcl_obj differs from the input, so the tcl_obj was converted; in case we have set prevously must_decr on newValue, we decr the refcount on newValue here and clear the flag */ if (mustDecrNewValue) { DECR_REF_COUNT(newValue); pcPtr->flags[i] &= ~NSF_PC_MUST_DECR; } /* the new output value itself might require a decr, so set the flag here if required; this is just necessary for multivalued converted output */ if (mustDecrList) { pcPtr->flags[i] |= NSF_PC_MUST_DECR; pcPtr->mustDecr = 1; } } } } else if (pPtr->flags & NSF_ARG_REQUIRED) { return NsfVarErrMsg(interp, pcPtr->object ? objectName(pcPtr->object) : "", pcPtr->object ? " " : "", ObjStr(pcPtr->full_objv[0]), ": required argument '", pPtr->nameObj ? ObjStr(pPtr->nameObj) : pPtr->name, "' is missing", (char *) NULL); } else { /* Use as dummy default value an arbitrary symbol, which must not be * returned to the Tcl level level; this value is * unset later by unsetUnknownArgs */ pcPtr->objv[i] = NsfGlobalObjs[NSF___UNKNOWN__]; } } } return TCL_OK; } static int ArgumentParse(Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[], NsfObject *object, Tcl_Obj *procNameObj, NsfParam CONST *paramPtr, int nrParams, int doCheck, ParseContext *pcPtr) { int i, o, flagCount, nrReq = 0, nrOpt = 0, dashdash = 0, nrDashdash = 0; NsfParam CONST *pPtr; ParseContextInit(pcPtr, nrParams, object, procNameObj); #if defined(PARSE_TRACE) fprintf(stderr, "BEGIN (%d) [0]%s ", objc, ObjStr(procNameObj)); for (o=1; oname && o < objc;) { #if defined(PARSE_TRACE_FULL) fprintf(stderr, "... (%d) processing [%d]: '%s' %s\n", i, o, pPtr->name, pPtr->flags & NSF_ARG_REQUIRED ? "req":"not req"); #endif flagCount = 0; if (*pPtr->name == '-') { int p, found; CONST char *objStr; /* * We expect now a non-positional (named) parameter, starting * with a "-"; such arguments can be given in an arbitrary order */ for (p = o; pname && *nppPtr->name == '-'; nppPtr ++) { if (strcmp(objStr, nppPtr->name) == 0) { int j = nppPtr-paramPtr; /*fprintf(stderr, "... flag '%s' o=%d p=%d, objc=%d nrArgs %d\n", objStr, o, p, objc, nppPtr->nrArgs);*/ if (nppPtr->flags & NSF_ARG_REQUIRED) nrReq++; else nrOpt++; if (nppPtr->nrArgs == 0) { pcPtr->clientData[j] = (ClientData)1; /* the flag was given */ pcPtr->objv[j] = NsfGlobalObjs[NSF_ONE]; } else { /* we assume for now, nrArgs is at most 1 */ o++; p++; if (nppPtr->flags & NSF_ARG_REQUIRED) nrReq++; else nrOpt++; if (o < objc) { #if defined(PARSE_TRACE_FULL) fprintf(stderr, "... setting cd[%d] '%s' = %s (%d) %s converter %p\n", i, nppPtr->name, ObjStr(objv[p]), nppPtr->nrArgs, nppPtr->flags & NSF_ARG_REQUIRED ? "req":"not req", nppPtr->converter); #endif if (ArgumentCheck(interp, objv[p], nppPtr, doCheck, &pcPtr->flags[j], &pcPtr->clientData[j], &pcPtr->objv[j]) != TCL_OK) { return TCL_ERROR; } if (pcPtr->flags[j] & NSF_PC_MUST_DECR) pcPtr->mustDecr = 1; } else { Tcl_ResetResult(interp); Tcl_AppendResult(interp, "Argument for parameter '", objStr, "' expected", (char *) NULL); return TCL_ERROR; } } flagCount++; found = 1; break; } } if (!found) { /* we did not find the specified flag, the thing starting with a '-' must be an argument */ break; } } } /*fprintf(stderr, "... we found %d flags\n", flagCount);*/ /* skip in parameter definition until the end of the switches */ while (pPtr->name && *pPtr->name == '-') {pPtr++, i++;}; /* under the assumption, flags have no arguments */ o += flagCount; /* * check double dash -- */ if (oflags & NSF_ARG_REQUIRED) nrReq++; else nrOpt++; /*fprintf(stderr, "... arg %s req %d converter %p try to set on %d: '%s' ConvertViaCmd %p\n", pPtr->name, pPtr->flags & NSF_ARG_REQUIRED, pPtr->converter, i, ObjStr(objv[o]), ConvertViaCmd);*/ if (ArgumentCheck(interp, objv[o], pPtr, doCheck, &pcPtr->flags[i], &pcPtr->clientData[i], &pcPtr->objv[i]) != TCL_OK) { return TCL_ERROR; } if (pcPtr->flags[i] & NSF_PC_MUST_DECR) pcPtr->mustDecr = 1; /* * objv is always passed via pcPtr->objv */ #if defined(PARSE_TRACE_FULL) fprintf(stderr, "... setting %s pPtr->objv[%d] to [%d]'%s' converter %p\n", pPtr->name, i, o, ObjStr(objv[o]), pPtr->converter); #endif o++; i++; pPtr++; } } pcPtr->lastobjc = pPtr->name ? o : o-1; pcPtr->objc = i + 1; /* Process all args until end of parameter definitions to get correct counters */ while (pPtr->name) { if (pPtr->flags & NSF_ARG_REQUIRED) nrReq++; else nrOpt++; pPtr++; } /* is last argument a vararg? */ pPtr--; if (pPtr->converter == ConvertToNothing) { pcPtr->varArgs = 1; /*fprintf(stderr, "last arg of proc '%s' is varargs\n", ObjStr(procNameObj));*/ } /* handle missing or unexpected arguments */ if (pcPtr->lastobjc < nrReq) { return ArgumentError(interp, "not enough arguments:", paramPtr, NULL, procNameObj); /* for methods and cmds */ } if (!pcPtr->varArgs && objc-nrDashdash-1 > nrReq + nrOpt) { return ArgumentError(interp, "too many arguments:", paramPtr, NULL, procNameObj); /* for methods and cmds */ } return ArgumentDefaults(pcPtr, interp, paramPtr, nrParams); } /*********************************** * Begin result setting commands * (essentially List*() and support ***********************************/ static int ListVarKeys(Tcl_Interp *interp, Tcl_HashTable *tablePtr, CONST char *pattern) { Tcl_HashEntry *hPtr; if (pattern && NoMetaChars(pattern)) { Tcl_Obj *patternObj = Tcl_NewStringObj(pattern, -1); INCR_REF_COUNT(patternObj); hPtr = tablePtr ? Tcl_CreateHashEntry(tablePtr, (char *)patternObj, NULL) : NULL; if (hPtr) { Var *val = VarHashGetValue(hPtr); Tcl_SetObjResult(interp, VarHashGetKey(val)); } else { Tcl_SetObjResult(interp, NsfGlobalObjs[NSF_EMPTY]); } DECR_REF_COUNT(patternObj); } else { Tcl_Obj *list = Tcl_NewListObj(0, NULL); Tcl_HashSearch hSrch; hPtr = tablePtr ? Tcl_FirstHashEntry(tablePtr, &hSrch) : NULL; for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { Var *val = VarHashGetValue(hPtr); Tcl_Obj *key = VarHashGetKey(val); if (!pattern || Tcl_StringMatch(ObjStr(key), pattern)) { Tcl_ListObjAppendElement(interp, list, key); } } Tcl_SetObjResult(interp, list); } return TCL_OK; } static Tcl_Command GetOriginalCommand(Tcl_Command cmd) /* The imported command for which the original * command should be returned. */ { Tcl_Command importedCmd; while (1) { /* dereference the namespace import reference chain */ if ((importedCmd = TclGetOriginalCommand(cmd))) { cmd = importedCmd; } /* dereference the Next Scripting alias chain */ if (Tcl_Command_deleteProc(cmd) == AliasCmdDeleteProc) { AliasCmdClientData *tcd = (AliasCmdClientData *)Tcl_Command_objClientData(cmd); cmd = tcd->aliasedCmd; continue; } break; } return cmd; } static int ListProcBody(Tcl_Interp *interp, Proc *procPtr, CONST char *methodName) { if (procPtr) { CONST char *body = ObjStr(procPtr->bodyPtr); Tcl_SetObjResult(interp, Tcl_NewStringObj(StripBodyPrefix(body), -1)); return TCL_OK; } return NsfErrBadVal(interp, "info body", "a tcl method name", methodName); } static Tcl_Obj * ListParamDefs(Tcl_Interp *interp, NsfParam CONST *paramsPtr, int style) { Tcl_Obj *listObj; switch (style) { case 0: listObj = ParamDefsFormat(interp, paramsPtr); break; case 1: listObj = ParamDefsList(interp, paramsPtr); break; case 2: listObj = ParamDefsSyntax(interp, paramsPtr); break; } return listObj; } static int ListCmdParams(Tcl_Interp *interp, Tcl_Command cmd, CONST char *methodName, int withVarnames) { Proc *procPtr = GetTclProcFromCommand(cmd); if (procPtr) { NsfParamDefs *paramDefs = procPtr ? ParamDefsGet((Tcl_Command)procPtr->cmdPtr) : NULL; Tcl_Obj *list; if (paramDefs) { /* * Obtain parameter info from paramDefs */ list = ListParamDefs(interp, paramDefs->paramsPtr, withVarnames); } else { /* * Obtain parameter info from compiled locals */ CompiledLocal *args = procPtr->firstLocalPtr; list = Tcl_NewListObj(0, NULL); for ( ; args; args = args->nextPtr) { Tcl_Obj *innerlist; if (!TclIsCompiledLocalArgument(args)) { continue; } innerlist = Tcl_NewListObj(0, NULL); Tcl_ListObjAppendElement(interp, innerlist, Tcl_NewStringObj(args->name, -1)); if (!withVarnames && args->defValuePtr) { Tcl_ListObjAppendElement(interp, innerlist, args->defValuePtr); } Tcl_ListObjAppendElement(interp, list, innerlist); } } Tcl_SetObjResult(interp, list); return TCL_OK; } else if (cmd) { /* * If a command is found for the object|class, check whether we * find the parameter definitions for the C-defined method. */ methodDefinition *mdPtr = &method_definitions[0]; for (; mdPtr->methodName; mdPtr ++) { /*fprintf(stderr, "... comparing %p with %p => %s\n", ((Command *)cmd)->objProc, mdPtr->proc, mdPtr->methodName);*/ if (((Command *)cmd)->objProc == mdPtr->proc) { NsfParamDefs paramDefs = {mdPtr->paramDefs, mdPtr->nrParameters}; Tcl_Obj *list = ListParamDefs(interp, paramDefs.paramsPtr, withVarnames); Tcl_SetObjResult(interp, list); return TCL_OK; } } if (((Command *)cmd)->objProc == NsfSetterMethod) { SetterCmdClientData *cd = (SetterCmdClientData *)Tcl_Command_objClientData(cmd); if (cd->paramsPtr) { Tcl_Obj *list; NsfParamDefs paramDefs; paramDefs.paramsPtr = cd->paramsPtr; paramDefs.nrParams = 1; paramDefs.slotObj = NULL; list = ListParamDefs(interp, paramDefs.paramsPtr, withVarnames); Tcl_SetObjResult(interp, list); return TCL_OK; } else { Tcl_SetObjResult(interp, Tcl_NewStringObj(methodName, -1)); return TCL_OK; } } else if (((Command *)cmd)->objProc == NsfForwardMethod) { return NsfVarErrMsg(interp, "info params: could not obtain parameter definition for forwarder '", methodName, "'", (char *) NULL); } else if (((Command *)cmd)->objProc != NsfObjDispatch) { return NsfVarErrMsg(interp, "info params: could not obtain parameter definition for method '", methodName, "'", (char *) NULL); } else { /* procPtr == NsfObjDispatch, be quiet */ return TCL_OK; } } return NsfErrBadVal(interp, "info params", "a method name", methodName); } static void AppendForwardDefinition(Tcl_Interp *interp, Tcl_Obj *listObj, ForwardCmdClientData *tcd) { if (tcd->prefix) { Tcl_ListObjAppendElement(interp, listObj, Tcl_NewStringObj("-methodprefix", -1)); Tcl_ListObjAppendElement(interp, listObj, tcd->prefix); } if (tcd->subcommands) { Tcl_ListObjAppendElement(interp, listObj, Tcl_NewStringObj("-default", -1)); Tcl_ListObjAppendElement(interp, listObj, tcd->subcommands); } if (tcd->objscope) { Tcl_ListObjAppendElement(interp, listObj, Tcl_NewStringObj("-objscope", -1)); } Tcl_ListObjAppendElement(interp, listObj, tcd->cmdName); if (tcd->args) { Tcl_Obj **args; int nrArgs, i; Tcl_ListObjGetElements(interp, tcd->args, &nrArgs, &args); for (i=0; icmdName); if (withPer_object) { Tcl_ListObjAppendElement(interp, listObj, Tcl_NewStringObj("class-object", 12)); } Tcl_ListObjAppendElement(interp, listObj, Tcl_NewStringObj(registerCmdName, -1)); if (withObjscope) { Tcl_ListObjAppendElement(interp, listObj, Tcl_NewStringObj("-objscope", 9)); } if (Tcl_Command_flags(cmd) & NSF_CMD_NONLEAF_METHOD) { Tcl_ListObjAppendElement(interp, listObj, Tcl_NewStringObj("-nonleaf", 8)); } Tcl_ListObjAppendElement(interp, listObj, Tcl_NewStringObj(methodName, -1)); } static int ListMethod(Tcl_Interp *interp, NsfObject *regObject, NsfObject *defObject, CONST char *methodName, Tcl_Command cmd, int subcmd, int withPer_object) { /*fprintf(stderr, "ListMethodtype %s %s %p subcmd %d per-object %d\n", objectName(regObject), methodName, cmd, subcmd, withPer_object);*/ if (!cmd) { Tcl_SetObjResult(interp, NsfGlobalObjs[NSF_EMPTY]); } else { Tcl_ObjCmdProc *procPtr = Tcl_Command_objProc(cmd); int outputPerObject = 0; Tcl_Obj *resultObj; if (!NsfObjectIsClass(regObject)) { withPer_object = 1; /* don't output "object" modifier, if regObject is not a class */ outputPerObject = 0; } else { outputPerObject = withPer_object; } switch (subcmd) { case InfomethodsubcmdHandleIdx: { return ListMethodHandle(interp, regObject, withPer_object, methodName); } case InfomethodsubcmdArgsIdx: { Tcl_Command importedCmd = GetOriginalCommand(cmd); return ListCmdParams(interp, importedCmd, methodName, 1); } case InfomethodsubcmdParameterIdx: { Tcl_Command importedCmd = GetOriginalCommand(cmd); return ListCmdParams(interp, importedCmd, methodName, 0); } case InfomethodsubcmdParametersyntaxIdx: { Tcl_Command importedCmd = GetOriginalCommand(cmd); return ListCmdParams(interp, importedCmd, methodName, 2); } case InfomethodsubcmdPreconditionIdx: { NsfProcAssertion *procs; if (withPer_object) { procs = regObject->opt ? AssertionFindProcs(regObject->opt->assertions, methodName) : NULL; } else { NsfClass *class = (NsfClass *)regObject; procs = class->opt ? AssertionFindProcs(class->opt->assertions, methodName) : NULL; } if (procs) Tcl_SetObjResult(interp, AssertionList(interp, procs->pre)); return TCL_OK; } case InfomethodsubcmdPostconditionIdx: { NsfProcAssertion *procs; if (withPer_object) { procs = regObject->opt ? AssertionFindProcs(regObject->opt->assertions, methodName) : NULL; } else { NsfClass *class = (NsfClass *)regObject; procs = class->opt ? AssertionFindProcs(class->opt->assertions, methodName) : NULL; } if (procs) Tcl_SetObjResult(interp, AssertionList(interp, procs->post)); return TCL_OK; } case InfomethodsubcmdSubcommandsIdx: { if (procPtr == NsfObjDispatch) { NsfObject *subObject = NsfGetObjectFromCmdPtr(cmd); if (subObject) { return ListDefinedMethods(interp, subObject, NULL, 1 /* per-object */, NSF_METHODTYPE_ALL, 0, 1, 0); } } /* all other cases return emtpy */ Tcl_SetObjResult(interp, NsfGlobalObjs[NSF_EMPTY]); return TCL_OK; } } /* * Subcommands different per type of method. The Converter in * InfoMethods defines the types: * * "all|scripted|system|alias|forwarder|object|setter" */ if (GetTclProcFromCommand(cmd)) { /* a scripted method */ switch (subcmd) { case InfomethodsubcmdTypeIdx: Tcl_SetObjResult(interp, Tcl_NewStringObj("scripted", -1)); break; case InfomethodsubcmdBodyIdx: ListProcBody(interp, GetTclProcFromCommand(cmd), methodName); break; case InfomethodsubcmdDefinitionIdx: { NsfAssertionStore *assertions; resultObj = Tcl_NewListObj(0, NULL); /* todo: don't hard-code registering command name "method" / NSF_METHOD */ AppendMethodRegistration(interp, resultObj, NsfGlobalStrings[NSF_METHOD], regObject, methodName, cmd, 0, outputPerObject); ListCmdParams(interp, cmd, methodName, 0); Tcl_ListObjAppendElement(interp, resultObj, Tcl_GetObjResult(interp)); ListProcBody(interp, GetTclProcFromCommand(cmd), methodName); Tcl_ListObjAppendElement(interp, resultObj, Tcl_GetObjResult(interp)); if (withPer_object) { assertions = regObject->opt ? regObject->opt->assertions : NULL; } else { NsfClass *class = (NsfClass *)regObject; assertions = class->opt ? class->opt->assertions : NULL; } if (assertions) { NsfProcAssertion *procs = AssertionFindProcs(assertions, methodName); if (procs) { Tcl_ListObjAppendElement(interp, resultObj, Tcl_NewStringObj("-precondition", -1)); Tcl_ListObjAppendElement(interp, resultObj, AssertionList(interp, procs->pre)); Tcl_ListObjAppendElement(interp, resultObj, Tcl_NewStringObj("-postcondition", -1)); Tcl_ListObjAppendElement(interp, resultObj, AssertionList(interp, procs->post)); } } Tcl_SetObjResult(interp, resultObj); break; } } } else if (procPtr == NsfForwardMethod) { /* forwarder */ switch (subcmd) { case InfomethodsubcmdTypeIdx: Tcl_SetObjResult(interp, NsfGlobalObjs[NSF_FORWARD]); break; case InfomethodsubcmdDefinitionIdx: { ClientData clientData = cmd ? Tcl_Command_objClientData(cmd) : NULL; if (clientData) { resultObj = Tcl_NewListObj(0, NULL); /* todo: don't hard-code registering command name "forward" / NSF_FORWARD*/ AppendMethodRegistration(interp, resultObj, NsfGlobalStrings[NSF_FORWARD], regObject, methodName, cmd, 0, outputPerObject); AppendForwardDefinition(interp, resultObj, clientData); Tcl_SetObjResult(interp, resultObj); break; } } } } else if (procPtr == NsfSetterMethod) { /* setter methods */ switch (subcmd) { case InfomethodsubcmdTypeIdx: Tcl_SetObjResult(interp, NsfGlobalObjs[NSF_SETTER]); break; case InfomethodsubcmdDefinitionIdx: { SetterCmdClientData *cd = (SetterCmdClientData *)Tcl_Command_objClientData(cmd); resultObj = Tcl_NewListObj(0, NULL); /* todo: don't hard-code registering command name "setter" / NSF_SETTER */ AppendMethodRegistration(interp, resultObj, NsfGlobalStrings[NSF_SETTER], regObject, cd->paramsPtr ? ObjStr(cd->paramsPtr->paramObj) : methodName, cmd, 0, outputPerObject); Tcl_SetObjResult(interp, resultObj); break; } } } else { /* * The cmd must be an alias or object. * * Note that some aliases come with procPtr == NsfObjDispatch. * In order to dinstinguish between "object" and alias, we have * to do the lookup for the entryObj to determine wether it is * really an alias. */ Tcl_Obj *entryObj; entryObj = AliasGet(interp, defObject->cmdName, Tcl_GetCommandName(interp, cmd), regObject != defObject ? 1 : withPer_object); /* fprintf(stderr, "aliasGet %s -> %s/%s (%d) returned %p\n", objectName(defObject), methodName, Tcl_GetCommandName(interp, cmd), withPer_object, entryObj); fprintf(stderr, "... regObject %p %s\n",regObject,objectName(regObject)); fprintf(stderr, "... defObject %p %s\n",defObject,objectName(defObject)); */ if (entryObj) { /* is an alias */ switch (subcmd) { case InfomethodsubcmdTypeIdx: Tcl_SetObjResult(interp, NsfGlobalObjs[NSF_ALIAS]); break; case InfomethodsubcmdDefinitionIdx: { int nrElements; Tcl_Obj **listElements; resultObj = Tcl_NewListObj(0, NULL); Tcl_ListObjGetElements(interp, entryObj, &nrElements, &listElements); /* todo: don't hard-code registering command name "alias" / NSF_ALIAS */ AppendMethodRegistration(interp, resultObj, NsfGlobalStrings[NSF_ALIAS], regObject, methodName, cmd, nrElements!=1, outputPerObject); Tcl_ListObjAppendElement(interp, resultObj, listElements[nrElements-1]); Tcl_SetObjResult(interp, resultObj); break; } } } else { /* check, to be on the safe side */ if (procPtr == NsfObjDispatch) { /* the command is an object */ switch (subcmd) { case InfomethodsubcmdTypeIdx: Tcl_SetObjResult(interp, Tcl_NewStringObj("object", -1)); break; case InfomethodsubcmdDefinitionIdx: { NsfObject *subObject = NsfGetObjectFromCmdPtr(cmd); assert(subObject); resultObj = Tcl_NewListObj(0, NULL); /* we can make create or something similar to the other definition cmds createChild */ AppendMethodRegistration(interp, resultObj, "create", &(subObject->cl)->object, ObjStr(subObject->cmdName), cmd, 0, 0); /* AppendMethodRegistration(interp, resultObj, "subobject", object, methodName, cmd, 0, 0); Tcl_ListObjAppendElement(interp, resultObj, subObject->cmdName);*/ Tcl_SetObjResult(interp, resultObj); break; } } } else { /* should never happen */ fprintf(stderr, "should never happen, maybe someone deleted the alias %s for object %s\n", methodName, objectName(regObject)); fprintf(stderr, "procPtr %p NsfObjDispatch %p name %s \n", procPtr, NsfObjDispatch, Tcl_GetCommandName(interp, cmd)); Tcl_ResetResult(interp); } } } } return TCL_OK; } static int ProtectionMatches(Tcl_Interp *interp, int withCallprotection, Tcl_Command cmd) { int result, isProtected = Tcl_Command_flags(cmd) & NSF_CMD_PROTECTED_METHOD; if (withCallprotection == CallprotectionNULL) { withCallprotection = CallprotectionPublicIdx; } switch (withCallprotection) { case CallprotectionAllIdx: result = 1; break; case CallprotectionPublicIdx: result = (isProtected == 0); break; case CallprotectionProtectedIdx: result = (isProtected == 1); break; default: result = 1; } return result; } static int MethodTypeMatches(Tcl_Interp *interp, int methodType, Tcl_Command cmd, NsfObject *object, CONST char *key, int withPer_object) { Tcl_Command importedCmd; Tcl_ObjCmdProc *proc, *resolvedProc; proc = Tcl_Command_objProc(cmd); importedCmd = GetOriginalCommand(cmd); resolvedProc = Tcl_Command_objProc(importedCmd); if (methodType == NSF_METHODTYPE_ALIAS) { if (!(proc == NsfProcAliasMethod || AliasGet(interp, object->cmdName, key, withPer_object))) { return 0; } } else { if (proc == NsfProcAliasMethod) { if ((methodType & NSF_METHODTYPE_ALIAS) == 0) return 0; } /* the following cases are disjoint */ if (CmdIsProc(importedCmd)) { /*fprintf(stderr,"%s scripted %d\n", key, methodType & NSF_METHODTYPE_SCRIPTED);*/ if ((methodType & NSF_METHODTYPE_SCRIPTED) == 0) return 0; } else if (resolvedProc == NsfForwardMethod) { if ((methodType & NSF_METHODTYPE_FORWARDER) == 0) return 0; } else if (resolvedProc == NsfSetterMethod) { if ((methodType & NSF_METHODTYPE_SETTER) == 0) return 0; } else if (resolvedProc == NsfObjDispatch) { if ((methodType & NSF_METHODTYPE_OBJECT) == 0) return 0; } else if ((methodType & NSF_METHODTYPE_OTHER) == 0) { /* fprintf(stderr,"OTHER %s not wanted %.4x\n", key, methodType);*/ return 0; } /* NsfObjscopedMethod ??? */ } return 1; } static int ListMethodKeys(Tcl_Interp *interp, Tcl_HashTable *tablePtr, CONST char *pattern, int methodType, int withCallprotection, Tcl_HashTable *dups, NsfObject *object, int withPer_object) { Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr, *duphPtr; Tcl_Command cmd; char *key; int new; if (pattern && NoMetaChars(pattern)) { /* We have a pattern that can be used for direct lookup; * no need to iterate */ hPtr = tablePtr ? Tcl_CreateHashEntry(tablePtr, pattern, NULL) : NULL; if (hPtr) { key = Tcl_GetHashKey(tablePtr, hPtr); cmd = (Tcl_Command)Tcl_GetHashValue(hPtr); if (Tcl_Command_flags(cmd) & NSF_CMD_CLASS_ONLY_METHOD && !NsfObjectIsClass(object)) { return TCL_OK; } if (ProtectionMatches(interp, withCallprotection, cmd) && MethodTypeMatches(interp, methodType, cmd, object, key, withPer_object)) { if (dups) { duphPtr = Tcl_CreateHashEntry(dups, key, &new); if (new) { Tcl_AppendElement(interp, key); } } else { Tcl_AppendElement(interp, key); } } } return TCL_OK; } else { hPtr = tablePtr ? Tcl_FirstHashEntry(tablePtr, &hSrch) : NULL; for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { key = Tcl_GetHashKey(tablePtr, hPtr); cmd = (Tcl_Command)Tcl_GetHashValue(hPtr); if (Tcl_Command_flags(cmd) & NSF_CMD_CLASS_ONLY_METHOD && !NsfObjectIsClass(object)) continue; if (pattern && !Tcl_StringMatch(key, pattern)) continue; if (!ProtectionMatches(interp, withCallprotection, cmd) || !MethodTypeMatches(interp, methodType, cmd, object, key, withPer_object) ) continue; if (dups) { duphPtr = Tcl_CreateHashEntry(dups, key, &new); if (!new) continue; } Tcl_AppendElement(interp, key); } } /*fprintf(stderr, "listkeys returns '%s'\n", ObjStr(Tcl_GetObjResult(interp)));*/ return TCL_OK; } static int ListChildren(Tcl_Interp *interp, NsfObject *object, CONST char *pattern, int classesOnly, NsfClass *type) { NsfObject *childObject; Tcl_HashTable *cmdTable; if (!object->nsPtr) return TCL_OK; cmdTable = Tcl_Namespace_cmdTable(object->nsPtr); if (pattern && NoMetaChars(pattern)) { if ((childObject = GetObjectFromString(interp, pattern)) && (!classesOnly || NsfObjectIsClass(childObject)) && (!type || IsSubType(childObject->cl, type)) && (Tcl_Command_nsPtr(childObject->id) == object->nsPtr) /* true children */ ) { Tcl_SetObjResult(interp, childObject->cmdName); } else { Tcl_SetObjResult(interp, NsfGlobalObjs[NSF_EMPTY]); } } else { Tcl_Obj *list = Tcl_NewListObj(0, NULL); Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr = Tcl_FirstHashEntry(cmdTable, &hSrch); char *key; for (; hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { key = Tcl_GetHashKey(cmdTable, hPtr); if (!pattern || Tcl_StringMatch(key, pattern)) { Tcl_Command cmd = (Tcl_Command)Tcl_GetHashValue(hPtr); /*fprintf(stderr, "... check %s child key %s child object %p %p\n", objectName(object),key,GetObjectFromString(interp, key), NsfGetObjectFromCmdPtr(cmd));*/ if ((childObject = NsfGetObjectFromCmdPtr(cmd)) && (!classesOnly || NsfObjectIsClass(childObject)) && (!type || IsSubType(childObject->cl, type)) && (Tcl_Command_nsPtr(childObject->id) == object->nsPtr) /* true children */ ) { Tcl_ListObjAppendElement(interp, list, childObject->cmdName); } } } Tcl_SetObjResult(interp, list); } return TCL_OK; } static int ListForward(Tcl_Interp *interp, Tcl_HashTable *tablePtr, CONST char *pattern, int withDefinition) { if (withDefinition) { Tcl_HashEntry *hPtr = tablePtr && pattern ? Tcl_CreateHashEntry(tablePtr, pattern, NULL) : NULL; /* notice: we don't use pattern for wildcard matching here; pattern can only contain wildcards when used without "-definition" */ if (hPtr) { Tcl_Command cmd = (Tcl_Command)Tcl_GetHashValue(hPtr); ClientData clientData = cmd ? Tcl_Command_objClientData(cmd) : NULL; ForwardCmdClientData *tcd = (ForwardCmdClientData *)clientData; if (tcd && Tcl_Command_objProc(cmd) == NsfForwardMethod) { Tcl_Obj *listObj = Tcl_NewListObj(0, NULL); AppendForwardDefinition(interp, listObj, tcd); Tcl_SetObjResult(interp, listObj); return TCL_OK; } } return NsfVarErrMsg(interp, "'", pattern, "' is not a forwarder", (char *) NULL); } return ListMethodKeys(interp, tablePtr, pattern, NSF_METHODTYPE_FORWARDER, CallprotectionAllIdx, NULL, NULL, 0); } static int ListDefinedMethods(Tcl_Interp *interp, NsfObject *object, CONST char *pattern, int withPer_object, int methodType, int withCallproctection, int noMixins, int inContext) { Tcl_HashTable *cmdTable; if (NsfObjectIsClass(object) && !withPer_object) { cmdTable = Tcl_Namespace_cmdTable(((NsfClass *)object)->nsPtr); } else { cmdTable = object->nsPtr ? Tcl_Namespace_cmdTable(object->nsPtr) : NULL; } ListMethodKeys(interp, cmdTable, pattern, methodType, withCallproctection, NULL, object, withPer_object); return TCL_OK; } static int ListSuperclasses(Tcl_Interp *interp, NsfClass *cl, Tcl_Obj *pattern, int withClosure) { NsfObject *matchObject = NULL; Tcl_Obj *patternObj = NULL, *outObjPtr; CONST char *patternString = NULL; int rc; if (pattern && ConvertToObjpattern(interp, pattern, NULL, (ClientData *)&patternObj, &outObjPtr) == TCL_OK) { if (GetMatchObject(interp, patternObj, pattern, &matchObject, &patternString) == -1) { if (patternObj) { DECR_REF_COUNT(patternObj); } return TCL_OK; } } if (withClosure) { NsfClasses *pl = ComputeOrder(cl, cl->order, Super); if (pl) pl=pl->nextPtr; rc = AppendMatchingElementsFromClasses(interp, pl, patternString, matchObject); } else { NsfClasses *clSuper = NsfReverseClasses(cl->super); rc = AppendMatchingElementsFromClasses(interp, clSuper, patternString, matchObject); NsfClassListFree(clSuper); } if (matchObject) { Tcl_SetObjResult(interp, rc ? matchObject->cmdName : NsfGlobalObjs[NSF_EMPTY]); } if (patternObj) { DECR_REF_COUNT(patternObj); } return TCL_OK; } /******************************** * End result setting commands ********************************/ static CONST char * AliasIndex(Tcl_DString *dsPtr, Tcl_Obj *cmdName, CONST char *methodName, int withPer_object) { Tcl_DStringInit(dsPtr); Tcl_DStringAppend(dsPtr, ObjStr(cmdName), -1); Tcl_DStringAppend(dsPtr, ",", 1); Tcl_DStringAppend(dsPtr, methodName, -11); if (withPer_object) { Tcl_DStringAppend(dsPtr, ",1", 2); } else { Tcl_DStringAppend(dsPtr, ",0", 2); } /*fprintf(stderr, "AI %s\n", Tcl_DStringValue(dsPtr));*/ return Tcl_DStringValue(dsPtr); } static int AliasAdd(Tcl_Interp *interp, Tcl_Obj *cmdName, CONST char *methodName, int withPer_object, CONST char *cmd) { Tcl_DString ds, *dsPtr = &ds; Tcl_SetVar2Ex(interp, NsfGlobalStrings[NSF_ALIAS_ARRAY], AliasIndex(dsPtr, cmdName, methodName, withPer_object), Tcl_NewStringObj(cmd, -1), TCL_GLOBAL_ONLY); /*fprintf(stderr, "aliasAdd ::nsf::alias(%s) '%s' returned %p\n", AliasIndex(dsPtr, cmdName, methodName, withPer_object), cmd, 1);*/ Tcl_DStringFree(dsPtr); return TCL_OK; } static int AliasDelete(Tcl_Interp *interp, Tcl_Obj *cmdName, CONST char *methodName, int withPer_object) { Tcl_DString ds, *dsPtr = &ds; int result = Tcl_UnsetVar2(interp, NsfGlobalStrings[NSF_ALIAS_ARRAY], AliasIndex(dsPtr, cmdName, methodName, withPer_object), TCL_GLOBAL_ONLY); /*fprintf(stderr, "aliasDelete ::nsf::alias(%s) returned %d (%d)\n", AliasIndex(dsPtr, cmdName, methodName, withPer_object), result);*/ Tcl_DStringFree(dsPtr); return result; } static Tcl_Obj * AliasGet(Tcl_Interp *interp, Tcl_Obj *cmdName, CONST char *methodName, int withPer_object) { Tcl_DString ds, *dsPtr = &ds; Tcl_Obj *obj = Tcl_GetVar2Ex(interp, NsfGlobalStrings[NSF_ALIAS_ARRAY], AliasIndex(dsPtr, cmdName, methodName, withPer_object), TCL_GLOBAL_ONLY); /*fprintf(stderr, "aliasGet methodName '%s' returns %p\n", methodName, obj);*/ Tcl_DStringFree(dsPtr); return obj; } /* *---------------------------------------------------------------------- * AliasDeleteObjectReference -- * * Delete an alias to an referenced object. Such aliases are * created by registering an alias to an object. This funciton * distinguishes between a sub-object and an alias to an object, * deletes the alias but never the referenced object. * * Results: * 1 when alias is deleted. * * Side effects: * Deletes cmd sometimes * *---------------------------------------------------------------------- */ static int AliasDeleteObjectReference(Tcl_Interp *interp, Tcl_Command cmd) { NsfObject *referencedObject = NsfGetObjectFromCmdPtr(cmd); if (referencedObject && referencedObject->refCount >= 2 && cmd != referencedObject->id) { /* * The cmd is an aliased object, reduce the refcount of the * object, delete the cmd. */ /*fprintf(stderr, "remove alias %s to %s\n", Tcl_GetCommandName(interp, cmd), objectName(referencedObject));*/ NsfCleanupObject(referencedObject); Nsf_DeleteCommandFromToken(interp, cmd); return 1; } return 0; } /******************************************* * Begin generated Next Scripting commands *******************************************/ /* nsfCmd alias NsfAliasCmd { {-argName "object" -type object} {-argName "-per-object"} {-argName "methodName"} {-argName "-nonleaf"} {-argName "-objscope"} {-argName "cmdName" -required 1 -type tclobj} } */ static int NsfAliasCmd(Tcl_Interp *interp, NsfObject *object, int withPer_object, CONST char *methodName, int withNonleaf, int withObjscope, Tcl_Obj *cmdName) { Tcl_ObjCmdProc *objProc, *newObjProc = NULL; Tcl_CmdDeleteProc *deleteProc = NULL; AliasCmdClientData *tcd = NULL; /* make compiler happy */ Tcl_Command cmd, newCmd = NULL; Tcl_Namespace *nsPtr; int flags, result; NsfClass *cl = (withPer_object || ! NsfObjectIsClass(object)) ? NULL : (NsfClass *)object; cmd = Tcl_GetCommandFromObj(interp, cmdName); if (cmd == NULL) { return NsfVarErrMsg(interp, "cannot lookup command '", ObjStr(cmdName), "'", (char *) NULL); } cmd = GetOriginalCommand(cmd); objProc = Tcl_Command_objProc(cmd); /* objProc is either ... 1. NsfObjDispatch: a command representing an Next Scripting object 2. TclObjInterpProc: a cmd standing for a Tcl proc (including Next Scripting methods), verified through CmdIsProc() -> to be wrapped by NsfProcAliasMethod() 3. NsfForwardMethod: an Next Scripting forwarder 4. NsfSetterMethod: an Next Scripting setter 5. arbitrary Tcl commands (e.g. set, ..., ::nsf::relation, ...) TODO GN: i think, we should use NsfProcAliasMethod, whenever the clientData is not 0. These are the cases, where the clientData will be freed, when the original command is deleted. */ if (withObjscope) { newObjProc = NsfObjscopedMethod; } if (objProc == NsfObjDispatch) { /* * if we register an alias for an object, we have to take care to * handle cases, where the aliased object is destroyed and the * alias points to nowhere. We realize this via using the object * refcount. */ /*fprintf(stderr, "registering an object %p\n", tcd);*/ NsfObjectRefCountIncr((NsfObject *)Tcl_Command_objClientData(cmd)); /*newObjProc = NsfProcAliasMethod;*/ } else if (CmdIsProc(cmd)) { /* * if we have a tcl proc|nsf-method as alias, then use the * wrapper, which will be deleted automatically when the original * proc/method is deleted. */ newObjProc = NsfProcAliasMethod; if (withObjscope) { return NsfVarErrMsg(interp, "cannot use -objscope for tcl implemented command '", ObjStr(cmdName), "'", (char *) NULL); } } if (newObjProc) { /* add a wrapper */ tcd = NEW(AliasCmdClientData); tcd->cmdName = object->cmdName; tcd->interp = interp; /* just for deleting the associated variable */ tcd->object = object; tcd->class = cl ? (NsfClass *) object : NULL; tcd->objProc = objProc; tcd->aliasedCmd = cmd; tcd->clientData = Tcl_Command_objClientData(cmd); objProc = newObjProc; deleteProc = AliasCmdDeleteProc; if (tcd->cmdName) {INCR_REF_COUNT(tcd->cmdName);} } else { /* call the command directly (must be a c-implemented command not * depending on a volatile client data) */ tcd = Tcl_Command_objClientData(cmd); } flags = 0; if (cl) { result = NsfAddClassMethod(interp, (Nsf_Class *)cl, methodName, objProc, tcd, deleteProc, flags); nsPtr = cl->nsPtr; } else { result = NsfAddObjectMethod(interp, (Nsf_Object*)object, methodName, objProc, tcd, deleteProc, flags); nsPtr = object->nsPtr; } if (result == TCL_OK) { newCmd = FindMethod(nsPtr, methodName); } if (newObjProc) { /* * Define the reference chain like for 'namespace import' to * obtain automatic deletes when the original command is deleted. */ ImportRef *refPtr = (ImportRef *) ckalloc(sizeof(ImportRef)); refPtr->importedCmdPtr = (Command *) newCmd; refPtr->nextPtr = ((Command *) tcd->aliasedCmd)->importRefPtr; ((Command *) tcd->aliasedCmd)->importRefPtr = refPtr; tcd->aliasCmd = newCmd; } if (newCmd) { Tcl_DString ds, *dsPtr = &ds; Tcl_DStringInit(dsPtr); /*if (withPer_object) {Tcl_DStringAppend(dsPtr, "-per-object ", -1);}*/ if (withObjscope) {Tcl_DStringAppend(dsPtr, "-objscope ", -1);} Tcl_DStringAppend(dsPtr, ObjStr(cmdName), -1); AliasAdd(interp, object->cmdName, methodName, cl == NULL, Tcl_DStringValue(dsPtr)); Tcl_DStringFree(dsPtr); if (!withObjscope && withNonleaf) { Tcl_Command_flags(newCmd) |= NSF_CMD_NONLEAF_METHOD; /*fprintf(stderr, "setting aliased for cmd %p %s flags %.6x, tcd = %p\n", newCmd,methodName,Tcl_Command_flags(newCmd), tcd);*/ } result = ListMethodHandle(interp, object, cl == NULL, methodName); } return result; } /* nsfCmd assertion NsfAssertionCmd { {-argName "object" -type object} {-argName "assertionsubcmd" -required 1 -type "check|object-invar|class-invar"} {-argName "arg" -required 0 -type tclobj} } Make "::nsf::assertion" a cmd rather than a method, otherwise we cannot define e.g. a "method check options {...}" to reset the check options in case of a failed option, since assertion checking would be applied on the sketched method already. */ static int NsfAssertionCmd(Tcl_Interp *interp, NsfObject *object, int subcmd, Tcl_Obj *arg) { NsfClass *class; switch (subcmd) { case AssertionsubcmdCheckIdx: if (arg) { return AssertionSetCheckOptions(interp, object, arg); } else { return AssertionListCheckOption(interp, object); } break; case AssertionsubcmdObject_invarIdx: if (arg) { NsfObjectOpt *opt = NsfRequireObjectOpt(object); AssertionSetInvariants(interp, &opt->assertions, arg); } else { if (object->opt && object->opt->assertions) { Tcl_SetObjResult(interp, AssertionList(interp, object->opt->assertions->invariants)); } } break; case AssertionsubcmdClass_invarIdx: class = (NsfClass *)object; if (arg) { NsfClassOpt *opt = NsfRequireClassOpt(class); AssertionSetInvariants(interp, &opt->assertions, arg); } else { if (class->opt && class->opt->assertions) { Tcl_SetObjResult(interp, AssertionList(interp, class->opt->assertions->invariants)); } } } return TCL_OK; } /* nsfCmd configure NsfConfigureCmd { {-argName "configureoption" -required 1 -type "filter|softrecreate|objectsystems|keepinitcmd|checkresult"} {-argName "value" -required 0 -type tclobj} } */ static int NsfConfigureCmd(Tcl_Interp *interp, int configureoption, Tcl_Obj *valueObj) { int bool; if (configureoption == ConfigureoptionObjectsystemsIdx) { NsfObjectSystem *osPtr; Tcl_Obj *list = Tcl_NewListObj(0, NULL); for (osPtr = RUNTIME_STATE(interp)->objectSystems; osPtr; osPtr = osPtr->nextPtr) { Tcl_Obj *osObj = Tcl_NewListObj(0, NULL); Tcl_ListObjAppendElement(interp, osObj, osPtr->rootClass->object.cmdName); Tcl_ListObjAppendElement(interp, osObj, osPtr->rootMetaClass->object.cmdName); Tcl_ListObjAppendElement(interp, list, osObj); } Tcl_SetObjResult(interp, list); return TCL_OK; } if (valueObj) { int result = Tcl_GetBooleanFromObj(interp, valueObj, &bool); if (result != TCL_OK) return result; } switch (configureoption) { case ConfigureoptionFilterIdx: Tcl_SetBooleanObj(Tcl_GetObjResult(interp), (RUNTIME_STATE(interp)->doFilters)); if (valueObj) RUNTIME_STATE(interp)->doFilters = bool; break; case ConfigureoptionSoftrecreateIdx: Tcl_SetBooleanObj(Tcl_GetObjResult(interp), (RUNTIME_STATE(interp)->doSoftrecreate)); if (valueObj) RUNTIME_STATE(interp)->doSoftrecreate = bool; break; case ConfigureoptionKeepinitcmdIdx: Tcl_SetBooleanObj(Tcl_GetObjResult(interp), (RUNTIME_STATE(interp)->doKeepinitcmd)); if (valueObj) RUNTIME_STATE(interp)->doKeepinitcmd = bool; break; case ConfigureoptionCheckresultsIdx: Tcl_SetBooleanObj(Tcl_GetObjResult(interp), (RUNTIME_STATE(interp)->doCheckResults)); if (valueObj) RUNTIME_STATE(interp)->doCheckResults = bool; break; case ConfigureoptionCheckargumentsIdx: Tcl_SetBooleanObj(Tcl_GetObjResult(interp), (RUNTIME_STATE(interp)->doCheckArguments)); if (valueObj) RUNTIME_STATE(interp)->doCheckArguments = bool; break; } return TCL_OK; } /* nsfCmd createobjectsystem NsfCreateObjectSystemCmd { {-argName "rootClass" -required 1 -type tclobj} {-argName "rootMetaClass" -required 1 -type tclobj} {-argName "systemMethods" -required 0 -type tclobj} } */ static int NsfCreateObjectSystemCmd(Tcl_Interp *interp, Tcl_Obj *Object, Tcl_Obj *Class, Tcl_Obj *systemMethodsObj) { NsfClass *theobj; NsfClass *thecls; NsfObjectSystem *osPtr = NEW(NsfObjectSystem); memset(osPtr, 0, sizeof(NsfObjectSystem)); if (systemMethodsObj) { int oc, i, idx, result; Tcl_Obj **ov; if ((result = Tcl_ListObjGetElements(interp, systemMethodsObj, &oc, &ov)) == TCL_OK) { if (oc % 2) { ObjectSystemFree(interp, osPtr); return NsfErrMsg(interp, "System methods must be provided as pairs", TCL_STATIC); } for (i=0; imethods[idx] = ov[i+1]; INCR_REF_COUNT(osPtr->methods[idx]); } } else { ObjectSystemFree(interp, osPtr); return NsfErrMsg(interp, "Provided system methods are not a proper list", TCL_STATIC); } } /* Create a basic object system with the basic root class Object and the basic metaclass Class, and store them in the RUNTIME STATE if successful */ theobj = PrimitiveCCreate(interp, Object, NULL); thecls = PrimitiveCCreate(interp, Class, NULL); /* fprintf(stderr, "CreateObjectSystem created base classes \n"); */ #if defined(NSF_PROFILE) NsfProfileInit(interp); #endif /* check whether Object and Class creation was successful */ if (!theobj || !thecls) { int i; if (thecls) PrimitiveCDestroy((ClientData) thecls); if (theobj) PrimitiveCDestroy((ClientData) theobj); for (i = 0; i < nr_elements(NsfGlobalStrings); i++) { DECR_REF_COUNT(NsfGlobalObjs[i]); } FREE(Tcl_Obj **, NsfGlobalObjs); FREE(NsfRuntimeState, RUNTIME_STATE(interp)); ObjectSystemFree(interp, osPtr); return NsfErrMsg(interp, "Creation of object system failed", TCL_STATIC); } theobj->osPtr = osPtr; thecls->osPtr = osPtr; osPtr->rootClass = theobj; osPtr->rootMetaClass = thecls; theobj->object.flags |= NSF_IS_ROOT_CLASS; thecls->object.flags |= NSF_IS_ROOT_META_CLASS; ObjectSystemAdd(interp, osPtr); AddInstance((NsfObject*)theobj, thecls); AddInstance((NsfObject*)thecls, thecls); AddSuper(thecls, theobj); return TCL_OK; } /* nsfCmd deprecated NsfDeprecatedCmd { {-argName "what" -required 1} {-argName "oldCmd" -required 1} {-argName "newCmd" -required 0} } */ /* * Prints a msg to the screen that oldCmd is deprecated * optinal: give a new cmd */ static int NsfDeprecatedCmd(Tcl_Interp *interp, CONST char *what, CONST char *oldCmd, CONST char *newCmd) { fprintf(stderr, "**\n**\n** The %s <%s> is deprecated.\n", what, oldCmd); if (newCmd) fprintf(stderr, "** Use <%s> instead.\n", newCmd); fprintf(stderr, "**\n"); return TCL_OK; } /* nsfCmd dispatch NsfDispatchCmd { {-argName "object" -required 1 -type object} {-argName "-objscope"} {-argName "command" -required 1 -type tclobj} {-argName "args" -type args} } */ static int NsfDispatchCmd(Tcl_Interp *interp, NsfObject *object, int withObjscope, Tcl_Obj *command, int nobjc, Tcl_Obj *CONST nobjv[]) { int result; CONST char *methodName = ObjStr(command); register CONST char *n = methodName + strlen(methodName); /* fprintf(stderr, "Dispatch obj=%s, o=%p cmd m='%s'\n", objectName(object), object, methodName);*/ /* * If the specified method is a fully qualified cmd name like * e.g. ::nsf::cmd::Class::alloc, this method is called on the * specified , no matter whether it was registered on * it. */ /*search for last '::'*/ while ((*n != ':' || *(n-1) != ':') && n-1 > methodName) {n--; } if (*n == ':' && n > methodName && *(n-1) == ':') {n--;} if ((n-methodName)>1 || *methodName == ':') { Tcl_DString parentNSName, *dsp = &parentNSName; Tcl_Namespace *nsPtr; Tcl_Command cmd, importedCmd; CONST char *parentName, *tail = n+2; DSTRING_INIT(dsp); /* * We have an absolute name. We assume, the name is the name of a * tcl command, that will be dispatched. If "withObjscope is * specified, a callstack frame is pushed to make instvars * accessible for the command. */ /*fprintf(stderr, "colon name %s\n", tail);*/ if (n-methodName != 0) { Tcl_DStringAppend(dsp, methodName, (n-methodName)); parentName = Tcl_DStringValue(dsp); nsPtr = Tcl_FindNamespace(interp, parentName, (Tcl_Namespace *) NULL, TCL_GLOBAL_ONLY); DSTRING_FREE(dsp); } else { nsPtr = Tcl_FindNamespace(interp, "::", (Tcl_Namespace *) NULL, TCL_GLOBAL_ONLY); } if (!nsPtr) { return NsfVarErrMsg(interp, "cannot lookup parent namespace '", methodName, "'", (char *) NULL); } cmd = FindMethod(nsPtr, tail); if (cmd && (importedCmd = TclGetOriginalCommand(cmd))) { cmd = importedCmd; } /*fprintf(stderr, " .... findmethod '%s' in %s returns %p\n", tail, nsPtr->fullName, cmd);*/ if (cmd == NULL) { return NsfVarErrMsg(interp, "cannot lookup command '", tail, "'", (char *) NULL); } { Tcl_CallFrame frame, *framePtr = &frame; if (withObjscope) { Nsf_PushFrameObj(interp, object, framePtr); } /* * Since we know, that we are always called with a full argument * vector, we can include the cmd name in the objv by using * nobjv-1; this way, we avoid a memcpy() */ result = MethodDispatch((ClientData)object, interp, nobjc+1, nobjv-1, cmd, object, NULL /*NsfClass *cl*/, tail, NSF_CSC_TYPE_PLAIN); if (withObjscope) { Nsf_PopFrameObj(interp, framePtr); } } } else { /* * No colons in command name, use method from the precedence * order, with filters etc. -- strictly speaking unneccessary, * since we could dispatch the method also without * NsfDispatchCmd(), but it can be used to invoke protected * methods. 'withObjscope' is here a no-op. */ Tcl_Obj *arg; Tcl_Obj *CONST *objv; if (nobjc >= 1) { arg = nobjv[0]; objv = nobjv+1; } else { arg = NULL; objv = NULL; } result = NsfCallMethodWithArgs((ClientData)object, interp, command, arg, nobjc, objv, NSF_CM_NO_UNKNOWN); } return result; } /* nsfCmd colon NsfColonCmd { {-argName "args" -type allargs} } */ static int NsfColonCmd(Tcl_Interp *interp, int nobjc, Tcl_Obj *CONST nobjv[]) { NsfObject *self = GetSelfObj(interp); if (!self) { return NsfVarErrMsg(interp, "Cannot resolve 'self', probably called outside the context of an Next Scripting Object", (char *) NULL); } /*fprintf(stderr, "Colon dispatch %s on %s\n", ObjStr(nobjv[0]), objectName(self));*/ return ObjectDispatch(self, interp, nobjc, nobjv, NSF_CM_NO_SHIFT); } /* nsfCmd existsvar NsfExistsVarCmd { {-argName "object" -required 1 -type object} {-argName "var" -required 1} } */ static int NsfExistsVarCmd(Tcl_Interp *interp, NsfObject *object, CONST char *varName) { if (CheckVarName(interp, varName) != TCL_OK) { return TCL_ERROR; } Tcl_SetIntObj(Tcl_GetObjResult(interp), VarExists(interp, object, varName, NULL, 1, 1)); return TCL_OK; } /* nsfCmd finalize NsfFinalizeObjCmd { } */ /* * ::nsf::finalize command */ static int NsfFinalizeObjCmd(Tcl_Interp *interp) { int result; /*fprintf(stderr, "+++ call tcl-defined exit handler\n"); */ #if defined(NSF_PROFILE) NsfProfilePrintData(interp); #endif /* * evaluate user-defined exit handler */ result = Tcl_Eval(interp, "::nsf::__exitHandler"); if (result != TCL_OK) { fprintf(stderr, "User defined exit handler contains errors!\n" "Error in line %d: %s\nExecution interrupted.\n", Tcl_GetErrorLine(interp), ObjStr(Tcl_GetObjResult(interp))); } ObjectSystemsCleanup(interp); #ifdef DO_CLEANUP /*fprintf(stderr, "CLEANUP TOP NS\n");*/ Tcl_Export(interp, RUNTIME_STATE(interp)->NsfNS, "", 1); Tcl_DeleteNamespace(RUNTIME_STATE(interp)->NsfClassesNS); Tcl_DeleteNamespace(RUNTIME_STATE(interp)->NsfNS); #endif return TCL_OK; } /* nsfCmd forward NsfForwardCmd { {-argName "object" -required 1 -type object} {-argName "-per-object"} {-argName "method" -required 1 -type tclobj} {-argName "-default" -nrargs 1 -type tclobj} {-argName "-earlybinding"} {-argName "-methodprefix" -nrargs 1 -type tclobj} {-argName "-objscope"} {-argName "-onerror" -nrargs 1 -type tclobj} {-argName "-verbose"} {-argName "target" -type tclobj} {-argName "args" -type args} } */ static int NsfForwardCmd(Tcl_Interp *interp, NsfObject *object, int withPer_object, Tcl_Obj *methodObj, Tcl_Obj *withDefault, int withEarlybinding, Tcl_Obj *withMethodprefix, int withObjscope, Tcl_Obj *withOnerror, int withVerbose, Tcl_Obj *target, int nobjc, Tcl_Obj *CONST nobjv[]) { ForwardCmdClientData *tcd = NULL; int result; result = ForwardProcessOptions(interp, methodObj, withDefault, withEarlybinding, withMethodprefix, withObjscope, withOnerror, withVerbose, target, nobjc, nobjv, &tcd); if (result == TCL_OK) { CONST char *methodName = NSTail(ObjStr(methodObj)); NsfClass *cl = (withPer_object || ! NsfObjectIsClass(object)) ? NULL : (NsfClass *)object; tcd->object = object; if (cl == NULL) { result = NsfAddObjectMethod(interp, (Nsf_Object *)object, methodName, (Tcl_ObjCmdProc*)NsfForwardMethod, (ClientData)tcd, ForwardCmdDeleteProc, 0); } else { result = NsfAddClassMethod(interp, (Nsf_Class *)cl, methodName, (Tcl_ObjCmdProc*)NsfForwardMethod, (ClientData)tcd, ForwardCmdDeleteProc, 0); } if (result == TCL_OK) { result = ListMethodHandle(interp, object, cl == NULL, methodName); } } if (result != TCL_OK) { ForwardCmdDeleteProc((ClientData)tcd); } return result; } /* nsfCmd importvar NsfImportvarCmd { {-argName "object" -type object} {-argName "args" -type args} } */ static int NsfImportvar(Tcl_Interp *interp, NsfObject *object, const char *cmdName, int objc, Tcl_Obj *CONST objv[]) { int i, result = TCL_OK; for (i=0; iparsedParamPtr) { /*fprintf(stderr, " %s invalidate %p\n", className(cl), cl->parsedParamPtr);*/ ParsedParamFree(cl->parsedParamPtr); cl->parsedParamPtr = NULL; } return TCL_OK; } /* nsfCmd is NsfIsCmd { {-argName "-complain"} {-argName "constraint" -required 1 -type tclobj} {-argName "value" -required 1 -type tclobj} } */ static int NsfIsCmd(Tcl_Interp *interp, int withComplain, Tcl_Obj *constraintObj, Tcl_Obj *valueObj) { NsfParam *paramPtr = NULL; int result; result = ParameterCheck(interp, constraintObj, valueObj, "value:", 1, ¶mPtr); if (paramPtr == NULL) { /* * We could not convert the arguments. Even with noComplain, we * report the invalid converter spec as exception */ return TCL_ERROR; } if (paramPtr->converter == ConvertViaCmd && (withComplain == 0 || result == TCL_OK)) { Tcl_ResetResult(interp); } if (withComplain == 0) { Tcl_SetIntObj(Tcl_GetObjResult(interp), (result == TCL_OK)); result = TCL_OK; } else if (result == TCL_OK) { Tcl_SetIntObj(Tcl_GetObjResult(interp), 1); } return result; } /* nsfCmd isobject NsfIsObjectCmd { {-argName "object" -required 1 -type tclobj} } */ static int NsfIsObjectCmd(Tcl_Interp *interp, Tcl_Obj *valueObj) { NsfObject *object; Tcl_SetBooleanObj(Tcl_GetObjResult(interp), GetObjectFromObj(interp, valueObj, &object) == TCL_OK); return TCL_OK; } /* nsfCmd method NsfMethodCmd { {-argName "object" -required 1 -type object} {-argName "-inner-namespace"} {-argName "-per-object"} {-argName "-public"} {-argName "name" -required 1 -type tclobj} {-argName "args" -required 1 -type tclobj} {-argName "body" -required 1 -type tclobj} {-argName "-precondition" -nrargs 1 -type tclobj} {-argName "-postcondition" -nrargs 1 -type tclobj} } */ static int NsfMethodCmd(Tcl_Interp *interp, NsfObject *object, int withInner_namespace, int withPer_object, int withPublic, Tcl_Obj *nameObj, Tcl_Obj *args, Tcl_Obj *body, Tcl_Obj *withPrecondition, Tcl_Obj *withPostcondition) { NsfClass *cl = (withPer_object || ! NsfObjectIsClass(object)) ? NULL : (NsfClass *)object; if (cl == 0) { RequireObjNamespace(interp, object); } return MakeMethod(interp, object, cl, nameObj, args, body, withPrecondition, withPostcondition, withPublic, withInner_namespace); } /* nsfCmd methodproperty NsfMethodPropertyCmd { {-argName "object" -required 1 -type object} {-argName "-per-object"} {-argName "methodName" -required 1 -type tclobj} {-argName "methodproperty" -required 1 -type "class-only|protected|redefine-protected|returns|slotobj"} {-argName "value" -type tclobj} } */ static int NsfMethodPropertyCmd(Tcl_Interp *interp, NsfObject *object, int withPer_object, Tcl_Obj *methodObj, int methodproperty, Tcl_Obj *valueObj) { CONST char *methodName = ObjStr(methodObj); Tcl_Command cmd = NULL; /*fprintf(stderr, "methodProperty for method '%s' prop %d value %s\n", methodName, methodproperty, valueObj ? ObjStr(valueObj) : "NULL");*/ if (*methodName == ':') { cmd = Tcl_GetCommandFromObj(interp, methodObj); if (!cmd) { return NsfVarErrMsg(interp, "Cannot lookup object method '", methodName, "' for object ", objectName(object), (char *) NULL); } } else { NsfClass *cl; if (withPer_object) { cl = NULL; } else { cl = NsfObjectIsClass(object) ? (NsfClass *)object : NULL; } if (cl == NULL) { if (object->nsPtr) cmd = FindMethod(object->nsPtr, methodName); if (!cmd) { return NsfVarErrMsg(interp, "Cannot lookup object method '", methodName, "' for object ", objectName(object), (char *) NULL); } } else { if (cl->nsPtr) cmd = FindMethod(cl->nsPtr, methodName); if (!cmd) return NsfVarErrMsg(interp, "Cannot lookup method '", methodName, "' from class ", objectName(object), (char *) NULL); } } switch (methodproperty) { case MethodpropertyClass_onlyIdx: /* fall through */ case MethodpropertyProtectedIdx: /* fall through */ case MethodpropertyRedefine_protectedIdx: { int flag = methodproperty == MethodpropertyProtectedIdx ? NSF_CMD_PROTECTED_METHOD : methodproperty == MethodpropertyRedefine_protectedIdx ? NSF_CMD_REDEFINE_PROTECTED_METHOD :NSF_CMD_CLASS_ONLY_METHOD; if (valueObj) { int bool, result; result = Tcl_GetBooleanFromObj(interp, valueObj, &bool); if (result != TCL_OK) { return result; } if (bool) { Tcl_Command_flags(cmd) |= flag; } else { Tcl_Command_flags(cmd) &= ~flag; } } Tcl_SetIntObj(Tcl_GetObjResult(interp), (Tcl_Command_flags(cmd) & flag) != 0); break; } case MethodpropertySlotobjIdx: case MethodpropertyReturnsIdx: { NsfParamDefs *paramDefs; Tcl_Obj **objPtr; if (valueObj == NULL && methodproperty == MethodpropertySlotobjIdx) { return NsfVarErrMsg(interp, "Option 'slotobj' of method ", methodName, " requires argument '", (char *) NULL); } paramDefs = ParamDefsGet(cmd); /*fprintf(stderr, "MethodProperty, ParamDefsGet cmd %p paramDefs %p returns %p\n", cmd, paramDefs, paramDefs?paramDefs->returns:NULL);*/ if (paramDefs == NULL) { paramDefs = ParamDefsNew(); ParamDefsStore(interp, cmd, paramDefs); /*fprintf(stderr, "new param defs %p for cmd %p %s\n", paramDefs, cmd, methodName);*/ } objPtr = methodproperty == MethodpropertySlotobjIdx ? ¶mDefs->slotObj : ¶mDefs->returns; if (valueObj == NULL) { /* must be a returns query */ Tcl_SetObjResult(interp, *objPtr ? *objPtr : NsfGlobalObjs[NSF_EMPTY]); } else { const char *valueString = ObjStr(valueObj); /* Set a new value; if there is already a value, free it */ if (*objPtr) { DECR_REF_COUNT(*objPtr); } if (*valueString == '\0') { /* set the value to NULL */ *objPtr = NULL; } else { *objPtr = valueObj; INCR_REF_COUNT(*objPtr); } } break; } } return TCL_OK; } /* nsfCmd my NsfMyCmd { {-argName "-local"} {-argName "method" -required 1 -type tclobj} {-argName "args" -type args} } */ static int NsfMyCmd(Tcl_Interp *interp, int withLocal, Tcl_Obj *methodObj, int nobjc, Tcl_Obj *CONST nobjv[]) { NsfObject *self = GetSelfObj(interp); int result; if (!self) { return NsfVarErrMsg(interp, "Cannot resolve 'self', probably called outside the context of an Next Scripting Object", (char *) NULL); } if (withLocal) { NsfClass *cl = self->cl; CONST char *methodName = ObjStr(methodObj); Tcl_Command cmd = FindMethod(cl->nsPtr, methodName); if (cmd == NULL) { return NsfVarErrMsg(interp, objectName(self), ": unable to dispatch local method '", methodName, "' in class ", className(cl), (char *) NULL); } result = MethodDispatch((ClientData)self, interp, nobjc+2, nobjv, cmd, self, cl, methodName, 0); } else { result = CallMethod((ClientData)self, interp, methodObj, nobjc+2, nobjv, 0); } return result; } /* nsfCmd namespace_copycmds NsfNSCopyCmds { {-argName "fromNs" -required 1 -type tclobj} {-argName "toNs" -required 1 -type tclobj} } */ static int NsfNSCopyCmds(Tcl_Interp *interp, Tcl_Obj *fromNs, Tcl_Obj *toNs) { Tcl_Command cmd; Tcl_Obj *newFullCmdName, *oldFullCmdName; CONST char *newName, *oldName, *name; Tcl_Namespace *fromNsPtr, *toNsPtr; Tcl_HashTable *cmdTable; Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; NsfObject *object; NsfClass *cl; int fromClassNS; fromNsPtr = ObjFindNamespace(interp, fromNs); if (!fromNsPtr) return TCL_OK; name = ObjStr(fromNs); /* check, if we work on an object or class namespace */ object = GetObjectFromNsName(interp, name, &fromClassNS); if (object == NULL) { return NsfVarErrMsg(interp, "argument 1 '", ObjStr(fromNs), "' is not an object", NULL); } cl = fromClassNS ? (NsfClass *)object : NULL; /* object = GetObjectFromString(interp, ObjStr(fromNs));*/ toNsPtr = ObjFindNamespace(interp, toNs); if (!toNsPtr) return NsfVarErrMsg(interp, "CopyCmds: Destination namespace ", ObjStr(toNs), " does not exist", (char *) NULL); /* * copy all procs & commands in the ns */ cmdTable = Tcl_Namespace_cmdTable(fromNsPtr); hPtr = Tcl_FirstHashEntry(cmdTable, &hSrch); while (hPtr) { /*fprintf(stderr, "copy cmdTable = %p, first=%p\n", cmdTable, hPtr);*/ name = Tcl_GetHashKey(cmdTable, hPtr); /* * construct full cmd names */ newFullCmdName = Tcl_NewStringObj(toNsPtr->fullName, -1); oldFullCmdName = Tcl_NewStringObj(fromNsPtr->fullName, -1); INCR_REF_COUNT(newFullCmdName); INCR_REF_COUNT(oldFullCmdName); Tcl_AppendStringsToObj(newFullCmdName, "::", name, (char *) NULL); Tcl_AppendStringsToObj(oldFullCmdName, "::", name, (char *) NULL); newName = ObjStr(newFullCmdName); oldName = ObjStr(oldFullCmdName); /*fprintf(stderr, "try to copy command from '%s' to '%s'\n", oldName, newName);*/ /* * Make sure that the destination command does not already exist. * Otherwise: do not copy */ cmd = Tcl_FindCommand(interp, newName, 0, 0); if (cmd) { /*fprintf(stderr, "%s already exists\n", newName);*/ if (!GetObjectFromString(interp, newName)) { /* command or scripted method will be deleted & then copied */ Tcl_DeleteCommandFromToken(interp, cmd); } else { /* don't overwrite objects -> will be recreated */ hPtr = Tcl_NextHashEntry(&hSrch); DECR_REF_COUNT(newFullCmdName); DECR_REF_COUNT(oldFullCmdName); continue; } } /* * Find the existing command. An error is returned if simpleName can't * be found */ cmd = Tcl_FindCommand(interp, oldName, 0, 0); if (cmd == NULL) { Tcl_AppendStringsToObj(Tcl_GetObjResult(interp), "can't copy ", " \"", oldName, "\": command doesn't exist", (char *) NULL); DECR_REF_COUNT(newFullCmdName); DECR_REF_COUNT(oldFullCmdName); return TCL_ERROR; } /* * Do not copy Objects or Classes */ if (!GetObjectFromString(interp, oldName)) { if (CmdIsProc(cmd)) { Proc *procPtr = (Proc*) Tcl_Command_objClientData(cmd); Tcl_Obj *arglistObj; int result; /* * Build a list containing the arguments of the proc */ result = ListCmdParams(interp, cmd, oldName, 0); if (result != TCL_OK) { return result; } arglistObj = Tcl_GetObjResult(interp); INCR_REF_COUNT(arglistObj); if (Tcl_Command_objProc(cmd) == RUNTIME_STATE(interp)->objInterpProc) { Tcl_DString ds, *dsPtr = &ds; if (cl) { /* Next Scripting class-methods */ NsfProcAssertion *procs; procs = cl->opt ? AssertionFindProcs(cl->opt->assertions, name) : NULL; DSTRING_INIT(dsPtr); Tcl_DStringAppendElement(dsPtr, "::nsf::method"); Tcl_DStringAppendElement(dsPtr, NSCutNsfClasses(toNsPtr->fullName)); Tcl_DStringAppendElement(dsPtr, name); Tcl_DStringAppendElement(dsPtr, ObjStr(arglistObj)); Tcl_DStringAppendElement(dsPtr, StripBodyPrefix(ObjStr(procPtr->bodyPtr))); if (procs) { NsfRequireClassOpt(cl); AssertionAppendPrePost(interp, dsPtr, procs); } Tcl_EvalEx(interp, Tcl_DStringValue(dsPtr), Tcl_DStringLength(dsPtr), 0); DSTRING_FREE(dsPtr); } else { /* Next Scripting object-methods */ NsfObject *object = GetObjectFromString(interp, fromNsPtr->fullName); NsfProcAssertion *procs; if (object) { procs = object->opt ? AssertionFindProcs(object->opt->assertions, name) : NULL; } else { DECR_REF_COUNT(newFullCmdName); DECR_REF_COUNT(oldFullCmdName); DECR_REF_COUNT(arglistObj); return NsfVarErrMsg(interp, "No object for assertions", (char *) NULL); } DSTRING_INIT(dsPtr); Tcl_DStringAppendElement(dsPtr, "::nsf::method"); Tcl_DStringAppendElement(dsPtr, toNsPtr->fullName); Tcl_DStringAppendElement(dsPtr, "-per-object"); Tcl_DStringAppendElement(dsPtr, name); Tcl_DStringAppendElement(dsPtr, ObjStr(arglistObj)); Tcl_DStringAppendElement(dsPtr, StripBodyPrefix(ObjStr(procPtr->bodyPtr))); if (procs) { NsfRequireObjectOpt(object); AssertionAppendPrePost(interp, dsPtr, procs); } Tcl_EvalEx(interp, Tcl_DStringValue(dsPtr), Tcl_DStringLength(dsPtr), 0); DSTRING_FREE(dsPtr); } DECR_REF_COUNT(arglistObj); } else { /* Tcl Proc */ Tcl_VarEval(interp, "proc ", newName, " {", ObjStr(arglistObj), "} {\n", ObjStr(procPtr->bodyPtr), "}", (char *) NULL); } } else { /* * Otherwise copy command */ Tcl_ObjCmdProc *objProc = Tcl_Command_objProc(cmd); Tcl_CmdDeleteProc *deleteProc = Tcl_Command_deleteProc(cmd); ClientData clientData; if (objProc) { clientData = Tcl_Command_objClientData(cmd); if (clientData == NULL || clientData == (ClientData)NSF_CMD_NONLEAF_METHOD) { /* if client data is not null, we would have to copy the client data; we don't know its size...., so rely on introspection for copying */ Tcl_CreateObjCommand(interp, newName, objProc, Tcl_Command_objClientData(cmd), deleteProc); } } else { clientData = Tcl_Command_clientData(cmd); if (clientData == NULL || clientData == (ClientData)NSF_CMD_NONLEAF_METHOD) { Tcl_CreateCommand(interp, newName, Tcl_Command_proc(cmd), Tcl_Command_clientData(cmd), deleteProc); } } } } hPtr = Tcl_NextHashEntry(&hSrch); DECR_REF_COUNT(newFullCmdName); DECR_REF_COUNT(oldFullCmdName); } return TCL_OK; } /* nsfCmd namespace_copyvars NsfNSCopyVars { {-argName "fromNs" -required 1 -type tclobj} {-argName "toNs" -required 1 -type tclobj} } */ static int NsfNSCopyVars(Tcl_Interp *interp, Tcl_Obj *fromNs, Tcl_Obj *toNs) { Tcl_Namespace *fromNsPtr, *toNsPtr; Var *varPtr = NULL; Tcl_HashSearch hSrch; Tcl_HashEntry *hPtr; TclVarHashTable *varTable; NsfObject *object, *destObject; CONST char *destFullName; Tcl_Obj *destFullNameObj; Tcl_CallFrame frame, *framePtr = &frame; Tcl_Obj *varNameObj = NULL; fromNsPtr = ObjFindNamespace(interp, fromNs); /*fprintf(stderr, "copyvars from %s to %s, ns=%p\n", ObjStr(objv[1]), ObjStr(objv[2]), ns);*/ if (fromNsPtr) { toNsPtr = ObjFindNamespace(interp, toNs); if (!toNsPtr) return NsfVarErrMsg(interp, "CopyVars: Destination namespace ", ObjStr(toNs), " does not exist", (char *) NULL); object = GetObjectFromString(interp, ObjStr(fromNs)); destFullName = toNsPtr->fullName; destFullNameObj = Tcl_NewStringObj(destFullName, -1); INCR_REF_COUNT(destFullNameObj); varTable = Tcl_Namespace_varTable(fromNsPtr); Tcl_PushCallFrame(interp, (Tcl_CallFrame *)framePtr, toNsPtr, 0); } else { NsfObject *newObject; if (GetObjectFromObj(interp, fromNs, &object) != TCL_OK) { return NsfVarErrMsg(interp, "CopyVars: Origin object/namespace ", ObjStr(fromNs), " does not exist", (char *) NULL); } if (GetObjectFromObj(interp, toNs, &newObject) != TCL_OK) { return NsfVarErrMsg(interp, "CopyVars: Destination object/namespace ", ObjStr(toNs), " does not exist", (char *) NULL); } varTable = object->varTable; destFullNameObj = newObject->cmdName; destFullName = ObjStr(destFullNameObj); } destObject = GetObjectFromString(interp, destFullName); /* copy all vars in the ns */ hPtr = varTable ? Tcl_FirstHashEntry(VarHashTable(varTable), &hSrch) : NULL; while (hPtr) { GetVarAndNameFromHash(hPtr, &varPtr, &varNameObj); INCR_REF_COUNT(varNameObj); if (!TclIsVarUndefined(varPtr) && !TclIsVarLink(varPtr)) { if (TclIsVarScalar(varPtr)) { /* it may seem odd that we do not copy obj vars with the * same SetVar2 as normal vars, but we want to dispatch it in order to * be able to intercept the copying */ if (object) { /* fprintf(stderr, "copy in obj %s var %s val '%s'\n", objectName(object), ObjStr(varNameObj), ObjStr(valueOfVar(Tcl_Obj, varPtr, objPtr)));*/ /* can't rely on "set", if there are multiple object systems */ SetInstVar(interp, destObject, varNameObj, valueOfVar(Tcl_Obj, varPtr, objPtr)); } else { Tcl_ObjSetVar2(interp, varNameObj, NULL, valueOfVar(Tcl_Obj, varPtr, objPtr), TCL_NAMESPACE_ONLY); } } else { if (TclIsVarArray(varPtr)) { /* HERE!! PRE85 Why not [array get/set] based? Let the core iterate*/ TclVarHashTable *aTable = valueOfVar(TclVarHashTable, varPtr, tablePtr); Tcl_HashSearch ahSrch; Tcl_HashEntry *ahPtr = aTable ? Tcl_FirstHashEntry(VarHashTable(aTable), &ahSrch) :0; for (; ahPtr; ahPtr = Tcl_NextHashEntry(&ahSrch)) { Tcl_Obj *eltNameObj; Var *eltVar; GetVarAndNameFromHash(ahPtr, &eltVar, &eltNameObj); INCR_REF_COUNT(eltNameObj); if (TclIsVarScalar(eltVar)) { if (object) { Nsf_ObjSetVar2((Nsf_Object*)destObject, interp, varNameObj, eltNameObj, valueOfVar(Tcl_Obj, eltVar, objPtr), 0); } else { Tcl_ObjSetVar2(interp, varNameObj, eltNameObj, valueOfVar(Tcl_Obj, eltVar, objPtr), TCL_NAMESPACE_ONLY); } } DECR_REF_COUNT(eltNameObj); } } } } DECR_REF_COUNT(varNameObj); hPtr = Tcl_NextHashEntry(&hSrch); } if (fromNsPtr) { DECR_REF_COUNT(destFullNameObj); Tcl_PopCallFrame(interp); } return TCL_OK; } /* nsfCmd __qualify NsfQualifyObjCmd { {-argName "name" -required 1 -type tclobj} } */ static int NsfQualifyObjCmd(Tcl_Interp *interp, Tcl_Obj *nameObj) { CONST char *nameString = ObjStr(nameObj); if (isAbsolutePath(nameString)) { Tcl_SetObjResult(interp, nameObj); } else { Tcl_SetObjResult(interp, NameInNamespaceObj(interp, nameString, CallingNameSpace(interp))); } return TCL_OK; } /* nsfCmd relation NsfRelationCmd { {-argName "object" -type object} {-argName "relationtype" -required 1 -type "object-mixin|class-mixin|object-filter|class-filter|class|superclass|rootclass"} {-argName "value" -required 0 -type tclobj} } */ static int NsfRelationCmd(Tcl_Interp *interp, NsfObject *object, int relationtype, Tcl_Obj *valueObj) { int oc; Tcl_Obj **ov; NsfObject *nObject = NULL; NsfClass *cl = NULL; NsfObjectOpt *objopt = NULL; NsfClassOpt *clopt = NULL, *nclopt = NULL; int i; /* fprintf(stderr, "NsfRelationCmd %s rel=%d val='%s'\n", objectName(object), relationtype, valueObj ? ObjStr(valueObj) : "NULL");*/ if (relationtype == RelationtypeClass_mixinIdx || relationtype == RelationtypeClass_filterIdx) { if (NsfObjectIsClass(object)) { cl = (NsfClass *)object; } else { /* fall back to per-object case */ relationtype = (relationtype == RelationtypeClass_mixinIdx) ? RelationtypeObject_mixinIdx : RelationtypeObject_filterIdx ; } } switch (relationtype) { case RelationtypeObject_filterIdx: case RelationtypeObject_mixinIdx: if (valueObj == NULL) { objopt = object->opt; switch (relationtype) { case RelationtypeObject_mixinIdx: return objopt ? MixinInfo(interp, objopt->mixins, NULL, 1, NULL) : TCL_OK; case RelationtypeObject_filterIdx: return objopt ? FilterInfo(interp, objopt->filters, NULL, 1, 0) : TCL_OK; } } if (Tcl_ListObjGetElements(interp, valueObj, &oc, &ov) != TCL_OK) return TCL_ERROR; objopt = NsfRequireObjectOpt(object); break; case RelationtypeClass_mixinIdx: case RelationtypeClass_filterIdx: if (valueObj == NULL) { clopt = cl->opt; switch (relationtype) { case RelationtypeClass_mixinIdx: return clopt ? MixinInfo(interp, clopt->classmixins, NULL, 1, NULL) : TCL_OK; case RelationtypeClass_filterIdx: return objopt ? FilterInfo(interp, clopt->classfilters, NULL, 1, 0) : TCL_OK; } } if (Tcl_ListObjGetElements(interp, valueObj, &oc, &ov) != TCL_OK) return TCL_ERROR; clopt = NsfRequireClassOpt(cl); break; case RelationtypeSuperclassIdx: if (!NsfObjectIsClass(object)) return NsfObjErrType(interp, object->cmdName, "class", "relationtype"); cl = (NsfClass *)object; if (valueObj == NULL) { return ListSuperclasses(interp, cl, NULL, 0); } if (Tcl_ListObjGetElements(interp, valueObj, &oc, &ov) != TCL_OK) return TCL_ERROR; return SuperclassAdd(interp, cl, oc, ov, valueObj, cl->object.cl); case RelationtypeClassIdx: if (valueObj == NULL) { Tcl_SetObjResult(interp, object->cl->object.cmdName); return TCL_OK; } GetClassFromObj(interp, valueObj, &cl, object->cl); if (!cl) return NsfErrBadVal(interp, "class", "a class", objectName(object)); return ChangeClass(interp, object, cl); case RelationtypeRootclassIdx: { NsfClass *metaClass; if (!NsfObjectIsClass(object)) return NsfObjErrType(interp, object->cmdName, "class", "relationtype"); cl = (NsfClass *)object; if (valueObj == NULL) { return NsfVarErrMsg(interp, "metaclass must be specified as third argument", (char *) NULL); } GetClassFromObj(interp, valueObj, &metaClass, NULL); if (!metaClass) return NsfObjErrType(interp, valueObj, "class", ""); cl->object.flags |= NSF_IS_ROOT_CLASS; metaClass->object.flags |= NSF_IS_ROOT_META_CLASS; return TCL_OK; /* todo: need to remove these properties? allow to delete a classystem at runtime? */ } } switch (relationtype) { case RelationtypeObject_mixinIdx: { NsfCmdList *newMixinCmdList = NULL; for (i = 0; i < oc; i++) { if (MixinAdd(interp, &newMixinCmdList, ov[i], object->cl->object.cl) != TCL_OK) { CmdListRemoveList(&newMixinCmdList, GuardDel); return TCL_ERROR; } } if (objopt->mixins) { NsfCmdList *cmdlist, *del; for (cmdlist = objopt->mixins; cmdlist; cmdlist = cmdlist->nextPtr) { cl = NsfGetClassFromCmdPtr(cmdlist->cmdPtr); clopt = cl ? cl->opt : NULL; if (clopt) { del = CmdListFindCmdInList(object->id, clopt->isObjectMixinOf); if (del) { /* fprintf(stderr, "Removing object %s from isObjectMixinOf of class %s\n", objectName(object), ObjStr(NsfGetClassFromCmdPtr(cmdlist->cmdPtr)->object.cmdName)); */ del = CmdListRemoveFromList(&clopt->isObjectMixinOf, del); CmdListDeleteCmdListEntry(del, GuardDel); } } } CmdListRemoveList(&objopt->mixins, GuardDel); } object->flags &= ~NSF_MIXIN_ORDER_VALID; /* * since mixin procs may be used as filters -> we have to invalidate */ object->flags &= ~NSF_FILTER_ORDER_VALID; /* * now add the specified mixins */ objopt->mixins = newMixinCmdList; for (i = 0; i < oc; i++) { Tcl_Obj *ocl = NULL; /* fprintf(stderr, "Added to mixins of %s: %s\n", objectName(object), ObjStr(ov[i])); */ Tcl_ListObjIndex(interp, ov[i], 0, &ocl); GetObjectFromObj(interp, ocl, &nObject); if (nObject) { /* fprintf(stderr, "Registering object %s to isObjectMixinOf of class %s\n", objectName(object), objectName(nObject)); */ nclopt = NsfRequireClassOpt((NsfClass*)nObject); CmdListAdd(&nclopt->isObjectMixinOf, object->id, NULL, /*noDuplicates*/ 1); } /* else fprintf(stderr, "Problem registering %s as a mixinof of %s\n", ObjStr(ov[i]), className(cl)); */ } MixinComputeDefined(interp, object); FilterComputeDefined(interp, object); break; } case RelationtypeObject_filterIdx: if (objopt->filters) CmdListRemoveList(&objopt->filters, GuardDel); object->flags &= ~NSF_FILTER_ORDER_VALID; for (i = 0; i < oc; i ++) { if (FilterAdd(interp, &objopt->filters, ov[i], object, 0) != TCL_OK) return TCL_ERROR; } /*FilterComputeDefined(interp, object);*/ break; case RelationtypeClass_mixinIdx: { NsfCmdList *newMixinCmdList = NULL; for (i = 0; i < oc; i++) { if (MixinAdd(interp, &newMixinCmdList, ov[i], cl->object.cl) != TCL_OK) { CmdListRemoveList(&newMixinCmdList, GuardDel); return TCL_ERROR; } } if (clopt->classmixins) { RemoveFromClassMixinsOf(cl->object.id, clopt->classmixins); CmdListRemoveList(&clopt->classmixins, GuardDel); } MixinInvalidateObjOrders(interp, cl); /* * since mixin procs may be used as filters, * we have to invalidate the filters as well */ FilterInvalidateObjOrders(interp, cl); clopt->classmixins = newMixinCmdList; for (i = 0; i < oc; i++) { Tcl_Obj *ocl = NULL; /* fprintf(stderr, "Added to classmixins of %s: %s\n", className(cl), ObjStr(ov[i])); */ Tcl_ListObjIndex(interp, ov[i], 0, &ocl); GetObjectFromObj(interp, ocl, &nObject); if (nObject) { /* fprintf(stderr, "Registering class %s to isClassMixinOf of class %s\n", className(cl), objectName(nObject)); */ nclopt = NsfRequireClassOpt((NsfClass*) nObject); CmdListAdd(&nclopt->isClassMixinOf, cl->object.id, NULL, /*noDuplicates*/ 1); } /* else fprintf(stderr, "Problem registering %s as a class-mixin of %s\n", ObjStr(ov[i]), className(cl)); */ } break; } case RelationtypeClass_filterIdx: if (clopt->classfilters) CmdListRemoveList(&clopt->classfilters, GuardDel); FilterInvalidateObjOrders(interp, cl); for (i = 0; i < oc; i ++) { if (FilterAdd(interp, &clopt->classfilters, ov[i], 0, cl) != TCL_OK) return TCL_ERROR; } break; } return TCL_OK; } /* nsfCmd current NsfCurrentCmd { {-argName "currentoption" -required 0 -type "proc|method|object|class|activelevel|args|activemixin|calledproc|calledmethod|calledclass|callingproc|callingmethod|callingclass|callinglevel|callingobject|filterreg|isnextcall|next"} } */ static int NsfCurrentCmd(Tcl_Interp *interp, int selfoption) { NsfObject *object = GetSelfObj(interp); NsfCallStackContent *cscPtr; int result = TCL_OK; /*fprintf(stderr, "getSelfObj returns %p\n", object); tcl85showStack(interp);*/ if (selfoption == 0 || selfoption == CurrentoptionObjectIdx) { if (object) { Tcl_SetObjResult(interp, object->cmdName); return TCL_OK; } else { return NsfVarErrMsg(interp, "No current object", (char *) NULL); } } if (!object && selfoption != CurrentoptionCallinglevelIdx) { return NsfVarErrMsg(interp, "No current object", (char *) NULL); } switch (selfoption) { case CurrentoptionMethodIdx: /* fall through */ case CurrentoptionProcIdx: cscPtr = CallStackGetTopFrame(interp, NULL); if (cscPtr) { CONST char *procName = Tcl_GetCommandName(interp, cscPtr->cmdPtr); Tcl_SetResult(interp, (char *)procName, TCL_VOLATILE); } else { return NsfVarErrMsg(interp, "Can't find proc", (char *) NULL); } break; case CurrentoptionClassIdx: /* class subcommand */ cscPtr = CallStackGetTopFrame(interp, NULL); Tcl_SetObjResult(interp, cscPtr->cl ? cscPtr->cl->object.cmdName : NsfGlobalObjs[NSF_EMPTY]); break; case CurrentoptionActivelevelIdx: Tcl_SetObjResult(interp, ComputeLevelObj(interp, ACTIVE_LEVEL)); break; case CurrentoptionArgsIdx: { int nobjc; Tcl_Obj **nobjv; Tcl_CallFrame *topFramePtr; cscPtr = CallStackGetTopFrame(interp, &topFramePtr); if (cscPtr->objv) { nobjc = cscPtr->objc; nobjv = cscPtr->objv; } else { nobjc = Tcl_CallFrame_objc(topFramePtr); nobjv = (Tcl_Obj **)Tcl_CallFrame_objv(topFramePtr); } Tcl_SetObjResult(interp, Tcl_NewListObj(nobjc-1, nobjv+1)); break; } case CurrentoptionActivemixinIdx: { NsfObject *object = NULL; if (RUNTIME_STATE(interp)->cmdPtr) { object = NsfGetObjectFromCmdPtr(RUNTIME_STATE(interp)->cmdPtr); } Tcl_SetObjResult(interp, object ? object->cmdName : NsfGlobalObjs[NSF_EMPTY]); break; } case CurrentoptionCalledprocIdx: case CurrentoptionCalledmethodIdx: cscPtr = CallStackFindActiveFilter(interp); if (cscPtr) { Tcl_SetObjResult(interp, cscPtr->filterStackEntry->calledProc); } else { result = NsfVarErrMsg(interp, "called from outside of a filter", (char *) NULL); } break; case CurrentoptionCalledclassIdx: Tcl_SetResult(interp, className(FindCalledClass(interp, object)), TCL_VOLATILE); break; case CurrentoptionCallingmethodIdx: case CurrentoptionCallingprocIdx: cscPtr = NsfCallStackFindLastInvocation(interp, 1, NULL); Tcl_SetResult(interp, cscPtr ? (char *)Tcl_GetCommandName(interp, cscPtr->cmdPtr) : "", TCL_VOLATILE); break; case CurrentoptionCallingclassIdx: cscPtr = NsfCallStackFindLastInvocation(interp, 1, NULL); Tcl_SetObjResult(interp, cscPtr && cscPtr->cl ? cscPtr->cl->object.cmdName : NsfGlobalObjs[NSF_EMPTY]); break; case CurrentoptionCallinglevelIdx: if (!object) { Tcl_SetIntObj(Tcl_GetObjResult(interp), 1); } else { Tcl_SetObjResult(interp, ComputeLevelObj(interp, CALLING_LEVEL)); } break; case CurrentoptionCallingobjectIdx: cscPtr = NsfCallStackFindLastInvocation(interp, 1, NULL); Tcl_SetObjResult(interp, cscPtr ? cscPtr->self->cmdName : NsfGlobalObjs[NSF_EMPTY]); break; case CurrentoptionFilterregIdx: cscPtr = CallStackFindActiveFilter(interp); if (cscPtr) { Tcl_SetObjResult(interp, FilterFindReg(interp, object, cscPtr->cmdPtr)); } else { result = NsfVarErrMsg(interp, "called from outside of a filter", (char *) NULL); } break; case CurrentoptionIsnextcallIdx: { Tcl_CallFrame *framePtr; cscPtr = CallStackGetTopFrame(interp, &framePtr); framePtr = nextFrameOfType(Tcl_CallFrame_callerPtr(framePtr), FRAME_IS_NSF_METHOD|FRAME_IS_NSF_CMETHOD); cscPtr = framePtr ? Tcl_CallFrame_clientData(framePtr) : NULL; Tcl_SetBooleanObj(Tcl_GetObjResult(interp), (cscPtr && (cscPtr->callType & NSF_CSC_CALL_IS_NEXT))); break; } case CurrentoptionNextIdx: result = FindSelfNext(interp); break; } return result; } /* nsfCmd setvar NsfSetVarCmd { {-argName "object" -required 1 -type object} {-argName "variable" -required 1 -type tclobj} {-argName "value" -required 0 -type tclobj} } */ static int NsfSetVarCmd(Tcl_Interp *interp, NsfObject *object, Tcl_Obj *variable, Tcl_Obj *valueObj) { if (CheckVarName(interp, ObjStr(variable)) != TCL_OK) { return TCL_ERROR; } return SetInstVar(interp, object, variable, valueObj); } /* nsfCmd setter NsfSetterCmd { {-argName "object" -required 1 -type object} {-argName "-per-object"} {-argName "parameter" -type tclobj} } */ static int NsfSetterCmd(Tcl_Interp *interp, NsfObject *object, int withPer_object, Tcl_Obj *parameter) { NsfClass *cl = (withPer_object || ! NsfObjectIsClass(object)) ? NULL : (NsfClass *)object; CONST char *methodName = ObjStr(parameter); SetterCmdClientData *setterClientData; size_t j, length; int result; if (*methodName == '-') { return NsfVarErrMsg(interp, "method name \"", methodName, "\" must not start with a dash", (char *) NULL); } setterClientData = NEW(SetterCmdClientData); setterClientData->paramsPtr = NULL; length = strlen(methodName); for (j=0; jparamsPtr = ParamsNew(1); result = ParamParse(interp, "setter", parameter, NSF_DISALLOWED_ARG_SETTER|NSF_ARG_HAS_DEFAULT, setterClientData->paramsPtr, &possibleUnknowns, &plainParams); if (result != TCL_OK) { SetterCmdDeleteProc((ClientData)setterClientData); return result; } methodName = setterClientData->paramsPtr->name; } else { setterClientData->paramsPtr = NULL; } if (cl) { result = NsfAddClassMethod(interp, (Nsf_Class *)cl, methodName, (Tcl_ObjCmdProc*)NsfSetterMethod, (ClientData)setterClientData, SetterCmdDeleteProc, 0); } else { result = NsfAddObjectMethod(interp, (Nsf_Object *)object, methodName, (Tcl_ObjCmdProc*)NsfSetterMethod, (ClientData)setterClientData, SetterCmdDeleteProc, 0); } if (result == TCL_OK) { result = ListMethodHandle(interp, object, cl == NULL, methodName); } else { SetterCmdDeleteProc((ClientData)setterClientData); } return result; } typedef struct NsfParamWrapper { NsfParam *paramPtr; int refCount; int canFree; } NsfParamWrapper; static Tcl_DupInternalRepProc ParamDupInteralRep; static Tcl_FreeInternalRepProc ParamFreeInternalRep; static Tcl_UpdateStringProc ParamUpdateString; static void ParamUpdateString(Tcl_Obj *objPtr) { Tcl_Panic("%s of type %s should not be called", "updateStringProc", objPtr->typePtr->name); } static void ParamDupInteralRep(Tcl_Obj *srcPtr, Tcl_Obj *dupPtr) { Tcl_Panic("%s of type %s should not be called", "dupStringProc", srcPtr->typePtr->name); } static Tcl_ObjType paramObjType = { "nsfParam", /* name */ ParamFreeInternalRep, /* freeIntRepProc */ ParamDupInteralRep, /* dupIntRepProc */ ParamUpdateString, /* updateStringProc */ ParamSetFromAny /* setFromAnyProc */ }; static void ParamFreeInternalRep( register Tcl_Obj *objPtr) /* Param structure object with internal * representation to free. */ { NsfParamWrapper *paramWrapperPtr = (NsfParamWrapper *)objPtr->internalRep.twoPtrValue.ptr1; if (paramWrapperPtr != NULL) { /* fprintf(stderr, "ParamFreeInternalRep freeing wrapper %p paramPtr %p refCount %dcanFree %d\n", paramWrapperPtr, paramWrapperPtr->paramPtr, paramWrapperPtr->refCount, paramWrapperPtr->canFree);*/ if (paramWrapperPtr->canFree) { ParamsFree(paramWrapperPtr->paramPtr); FREE(NsfParamWrapper, paramWrapperPtr); } else { paramWrapperPtr->refCount--; } } } static int ParamSetFromAny2( Tcl_Interp *interp, /* Used for error reporting if not NULL. */ const char *varNamePrefix, /* shows up as varname in error message */ register Tcl_Obj *objPtr) /* The object to convert. */ { NsfParamWrapper *paramWrapperPtr = NEW(NsfParamWrapper); Tcl_Obj *fullParamObj = Tcl_NewStringObj(varNamePrefix, -1); int result, possibleUnknowns = 0, plainParams = 0; paramWrapperPtr->paramPtr = ParamsNew(1); paramWrapperPtr->refCount = 1; paramWrapperPtr->canFree = 0; /*fprintf(stderr, "allocating %p\n",paramWrapperPtr->paramPtr);*/ Tcl_AppendLimitedToObj(fullParamObj, ObjStr(objPtr), -1, INT_MAX, NULL); INCR_REF_COUNT(fullParamObj); result = ParamParse(interp, "valuecheck", fullParamObj, NSF_DISALLOWED_ARG_VALUEECHECK /* disallowed options */, paramWrapperPtr->paramPtr, &possibleUnknowns, &plainParams); /* Here, we want to treat currently unknown user level converters as error. */ if (paramWrapperPtr->paramPtr->flags & NSF_ARG_CURRENTLY_UNKNOWN) { ParamsFree(paramWrapperPtr->paramPtr); FREE(NsfParamWrapper, paramWrapperPtr); result = TCL_ERROR; } else if (result == TCL_OK) { TclFreeIntRep(objPtr); objPtr->internalRep.twoPtrValue.ptr1 = (void *)paramWrapperPtr; objPtr->internalRep.twoPtrValue.ptr2 = NULL; objPtr->typePtr = ¶mObjType; } DECR_REF_COUNT(fullParamObj); return result; } static int ParamSetFromAny( Tcl_Interp *interp, /* Used for error reporting if not NULL. */ register Tcl_Obj *objPtr) /* The object to convert. */ { return ParamSetFromAny2(interp, "value:", objPtr); } static int ParameterCheck(Tcl_Interp *interp, Tcl_Obj *objPtr, Tcl_Obj *valueObj, const char *varNamePrefix, int doCheck, NsfParam **paramPtrPtr) { NsfParamWrapper *paramWrapperPtr; Tcl_Obj *outObjPtr = NULL; NsfParam *paramPtr; ClientData checkedData; int result, flags = 0; /*fprintf(stderr, "ParamSetFromAny %s value %p %s\n", ObjStr(objPtr), valueObj, ObjStr(valueObj));*/ if (objPtr->typePtr == ¶mObjType) { paramWrapperPtr = (NsfParamWrapper *) objPtr->internalRep.twoPtrValue.ptr1; } else { result = ParamSetFromAny2(interp, varNamePrefix, objPtr); if (result == TCL_OK) { paramWrapperPtr = (NsfParamWrapper *) objPtr->internalRep.twoPtrValue.ptr1; } else { return NsfVarErrMsg(interp, "invalid value constraints \"", ObjStr(objPtr), "\"", (char *) NULL); } } paramPtr = paramWrapperPtr->paramPtr; if (paramPtrPtr) *paramPtrPtr = paramPtr; /* if (!doCheck) { outObjPtr = valueObj; checkedData = ObjStr(valueObj); return TCL_OK; }*/ result = ArgumentCheck(interp, valueObj, paramPtr, doCheck, &flags, &checkedData, &outObjPtr); /*fprintf(stderr, "ParamSetFromAny paramPtr %p final refcount of wrapper %d can free %d\n", paramPtr, paramWrapperPtr->refCount, paramWrapperPtr->canFree);*/ if (paramWrapperPtr->refCount == 0) { /* fprintf(stderr, "ParamSetFromAny paramPtr %p manual free\n",paramPtr);*/ ParamsFree(paramWrapperPtr->paramPtr); FREE(NsfParamWrapper, paramWrapperPtr); } else { paramWrapperPtr->canFree = 1; } if (flags & NSF_PC_MUST_DECR) { DECR_REF_COUNT(outObjPtr); } return result; } /***************************************** * End generated Next Scripting commands *****************************************/ /*************************** * Begin Object Methods ***************************/ static int NsfOAutonameMethod(Tcl_Interp *interp, NsfObject *object, int withInstance, int withReset, Tcl_Obj *nameObj) { Tcl_Obj *autoname = AutonameIncr(interp, nameObj, object, withInstance, withReset); if (autoname) { Tcl_SetObjResult(interp, autoname); DECR_REF_COUNT(autoname); } else return NsfVarErrMsg(interp, "Autoname failed. Probably format string (with %) was not well-formed", (char *) NULL); return TCL_OK; } static int NsfOCleanupMethod(Tcl_Interp *interp, NsfObject *object) { NsfClass *cl = NsfObjectToClass(object); int softrecreate; Tcl_Obj *savedNameObj; #if defined(OBJDELETION_TRACE) fprintf(stderr, "+++ NsfOCleanupMethod\n"); #endif PRINTOBJ("NsfOCleanupMethod", object); savedNameObj = object->cmdName; INCR_REF_COUNT(savedNameObj); /* save and pass around softrecreate*/ softrecreate = object->flags & NSF_RECREATE && RUNTIME_STATE(interp)->doSoftrecreate; CleanupDestroyObject(interp, object, softrecreate); CleanupInitObject(interp, object, object->cl, object->nsPtr, softrecreate); if (cl) { CleanupDestroyClass(interp, cl, softrecreate, 1); CleanupInitClass(interp, cl, cl->nsPtr, softrecreate, 1); } DECR_REF_COUNT(savedNameObj); return TCL_OK; } static int GetObjectParameterDefinition(Tcl_Interp *interp, CONST char *methodName, NsfObject *object, NsfParsedParam *parsedParamPtr) { int result; Tcl_Obj *rawConfArgs; /* * Parameter definitions are cached in the class, for which * instances are created. The parameter definitions are flushed in * the following situations: * * a) on class cleanup: ParsedParamFree(cl->parsedParamPtr) * b) on class structure changes, * c) when classmixins are added, * d) when new slots are defined, * e) when slots are removed * * When slot defaults or types are changed, the slots have to * perform a manual "::nsf::invalidateobjectparameter $domain" */ /* * Check, if there is already a parameter definition available for * creating objects of this class. */ if (object->cl->parsedParamPtr) { parsedParamPtr->paramDefs = object->cl->parsedParamPtr->paramDefs; parsedParamPtr->possibleUnknowns = object->cl->parsedParamPtr->possibleUnknowns; result = TCL_OK; } else { /* * There is no parameter definition available, get a new one in * the the string representation. */ /*fprintf(stderr, "calling %s objectparameter\n", objectName(object));*/ Tcl_Obj *methodObj = NsfMethodObj(interp, object, NSF_o_objectparameter_idx); if (methodObj) { result = CallMethod((ClientData) object, interp, methodObj, 2, 0, NSF_CM_NO_PROTECT); if (result == TCL_OK) { rawConfArgs = Tcl_GetObjResult(interp); /*fprintf(stderr, ".... rawConfArgs for %s => %s\n", objectName(object), ObjStr(rawConfArgs));*/ INCR_REF_COUNT(rawConfArgs); /* Parse the string representation to obtain the internal representation */ result = ParamDefsParse(interp, methodName, rawConfArgs, NSF_DISALLOWED_ARG_OBJECT_PARAMETER, parsedParamPtr); if (result == TCL_OK) { NsfParsedParam *ppDefPtr = NEW(NsfParsedParam); ppDefPtr->paramDefs = parsedParamPtr->paramDefs; ppDefPtr->possibleUnknowns = parsedParamPtr->possibleUnknowns; object->cl->parsedParamPtr = ppDefPtr; } DECR_REF_COUNT(rawConfArgs); } } else { parsedParamPtr->paramDefs = NULL; parsedParamPtr->possibleUnknowns = 0; result = TCL_OK; } } return result; } static int NsfOConfigureMethod(Tcl_Interp *interp, NsfObject *object, int objc, Tcl_Obj *CONST objv[]) { int result, i, remainingArgsc; NsfParsedParam parsedParam; NsfParam *paramPtr; NsfParamDefs *paramDefs; Tcl_Obj *newValue; ParseContext pc; Tcl_CallFrame frame, *framePtr = &frame; #if 0 fprintf(stderr, "NsfOConfigureMethod %s %d ",objectName(object), objc); for(i=0; iparamsPtr; paramPtr->name; paramPtr++, i++) { newValue = pc.full_objv[i]; /*fprintf(stderr, "new Value of %s = %p '%s', type %s", ObjStr(paramPtr->nameObj), newValue, newValue ? ObjStr(newValue) : "(null)", paramPtr->type); */ if (newValue == NsfGlobalObjs[NSF___UNKNOWN__]) { /* nothing to do here */ continue; } /* special setter due to relation handling */ if (paramPtr->converter == ConvertToRelation) { ClientData relIdx; Tcl_Obj *relationObj = paramPtr->converterArg ? paramPtr->converterArg : paramPtr->nameObj, *outObjPtr; result = ConvertToRelationtype(interp, relationObj, paramPtr, &relIdx, &outObjPtr); if (result == TCL_OK) { result = NsfRelationCmd(interp, object, PTR2INT(relIdx), newValue); } if (result != TCL_OK) { Nsf_PopFrameObj(interp, framePtr); ParseContextRelease(&pc); goto configure_exit; } /* done with relation handling */ continue; } /* special setter for init commands */ if (paramPtr->flags & (NSF_ARG_INITCMD|NSF_ARG_METHOD)) { CallFrame *varFramePtr = Tcl_Interp_varFramePtr(interp); NsfCallStackContent csc, *cscPtr = &csc; Tcl_CallFrame frame2, *framePtr2 = &frame2; /* The current callframe of configure uses an objscope, such that setvar etc. are able to access variables like "a" as a local variable. However, in the init block, we do not like that behavior, since this should look like like a proc body. So we push yet another callframe without providing the varframe. The new frame will have the namespace of the caller to avoid the current objscope. Nsf_PushFrameCsc() will establish a CMETHOD frame. */ Tcl_Interp_varFramePtr(interp) = varFramePtr->callerPtr; CscInit(cscPtr, object, NULL /*cl*/, NULL/*cmd*/, NSF_CSC_TYPE_PLAIN); Nsf_PushFrameCsc(interp, cscPtr, framePtr2); if (paramPtr->flags & NSF_ARG_INITCMD) { result = Tcl_EvalObjEx(interp, newValue, TCL_EVAL_DIRECT); } else /* must be NSF_ARG_METHOD */ { Tcl_Obj *ov[3]; int oc = 0; if (paramPtr->converterArg) { /* if arg= was given, pass it as first argument */ ov[0] = paramPtr->converterArg; oc = 1; } if (paramPtr->nrArgs == 1) { ov[oc] = newValue; oc ++; } result = NsfCallMethodWithArgs((ClientData) object, interp, paramPtr->nameObj, ov[0], oc, &ov[1], 0); } /* Pop previously stacked frame for eval context and set the varFramePtr to the previous value. */ Nsf_PopFrameCsc(interp, framePtr2); CscFinish(interp, cscPtr); Tcl_Interp_varFramePtr(interp) = varFramePtr; /*fprintf(stderr, "NsfOConfigureMethod_ attribute %s evaluated %s => (%d)\n", ObjStr(paramPtr->nameObj), ObjStr(newValue), result);*/ if (result != TCL_OK) { Nsf_PopFrameObj(interp, framePtr); ParseContextRelease(&pc); goto configure_exit; } if (paramPtr->flags & NSF_ARG_INITCMD && RUNTIME_STATE(interp)->doKeepinitcmd) { Tcl_ObjSetVar2(interp, paramPtr->nameObj, NULL, newValue, TCL_LEAVE_ERR_MSG|TCL_PARSE_PART1); } /* done with init command handling */ continue; } /* set the variables unless the last argument of the definition is varArgs */ if (i < paramDefs->nrParams || !pc.varArgs) { /* standard setter */ #if defined(CONFIGURE_ARGS_TRACE) fprintf(stderr, "*** %s SET %s '%s'\n", objectName(object), ObjStr(paramPtr->nameObj), ObjStr(newValue)); #endif Tcl_ObjSetVar2(interp, paramPtr->nameObj, NULL, newValue, TCL_LEAVE_ERR_MSG|TCL_PARSE_PART1); } } Nsf_PopFrameObj(interp, framePtr); remainingArgsc = pc.objc - paramDefs->nrParams; /* Call residualargs when we have varargs and left over arguments */ if (pc.varArgs && remainingArgsc > 0) { Tcl_Obj *methodObj; if (CallDirectly(interp, object, NSF_o_residualargs_idx, &methodObj)) { i -= 2; if (methodObj) {pc.full_objv[i] = methodObj;} result = NsfOResidualargsMethod(interp, object, remainingArgsc+1, pc.full_objv + i); } else { result = CallMethod((ClientData) object, interp, methodObj, remainingArgsc+2, pc.full_objv + i-1, 0); } if (result != TCL_OK) { ParseContextRelease(&pc); goto configure_exit; } } else { Tcl_SetObjResult(interp, NsfGlobalObjs[NSF_EMPTY]); } ParseContextRelease(&pc); configure_exit: return result; } static int NsfODestroyMethod(Tcl_Interp *interp, NsfObject *object) { PRINTOBJ("NsfODestroyMethod", object); /*fprintf(stderr,"NsfODestroyMethod %p %s flags %.6x activation %d cmd %p cmd->flags %.6x\n", object, ((Command*)object->id)->flags == 0 ? objectName(object) : "(deleted)", object->flags, object->activationCount, object->id, ((Command*)object->id)->flags);*/ /* * NSF_DESTROY_CALLED might be set already be DispatchDestroyMethod(), * the implicit destroy calls. It is necessary to set it here for * the explicit destroy calls in the script, which reach the * Object->destroy. */ if ((object->flags & NSF_DESTROY_CALLED) == 0) { object->flags |= NSF_DESTROY_CALLED; } if ((object->flags & NSF_DURING_DELETE) == 0) { int result; Tcl_Obj *methodObj; /*fprintf(stderr, " call dealloc on %p %s\n", object, ((Command*)object->id)->flags == 0 ? objectName(object) : "(deleted)");*/ if (CallDirectly(interp, &object->cl->object, NSF_c_dealloc_idx, &methodObj)) { result = DoDealloc(interp, object); } else { /*fprintf(stderr, "call dealloc\n");*/ result = NsfCallMethodWithArgs((ClientData)object->cl, interp, methodObj, object->cmdName, 1, NULL, 0); if (result != TCL_OK) { /* * In case, the call of the dealloc method has failed above (e.g. NS_DYING), * we have to call dealloc manually, otherwise we have a memory leak */ /*object->flags |= NSF_CMD_NOT_FOUND;*/ /*fprintf(stderr, "*** dealloc failed for %p %s flags %.6x, retry\n", object, objectName(object), object->flags);*/ result = DoDealloc(interp, object); } } return result; } else { #if defined(OBJDELETION_TRACE) fprintf(stderr, " Object->destroy already during delete, don't call dealloc %p\n", object); #endif } return TCL_OK; } static int NsfOExistsMethod(Tcl_Interp *interp, NsfObject *object, CONST char *var) { Tcl_SetIntObj(Tcl_GetObjResult(interp), VarExists(interp, object, var, NULL, 1, 1)); return TCL_OK; } static int NsfOFilterGuardMethod(Tcl_Interp *interp, NsfObject *object, CONST char *filter, Tcl_Obj *guardObj) { NsfObjectOpt *opt = object->opt; if (opt && opt->filters) { NsfCmdList *h = CmdListFindNameInList(interp, filter, opt->filters); if (h) { if (h->clientData) GuardDel((NsfCmdList *) h); GuardAdd(interp, h, guardObj); object->flags &= ~NSF_FILTER_ORDER_VALID; return TCL_OK; } } return NsfVarErrMsg(interp, "Filterguard: can't find filter ", filter, " on ", objectName(object), (char *) NULL); } static int NsfOInstVarMethod(Tcl_Interp *interp, NsfObject *object, int objc, Tcl_Obj *CONST objv[]) { callFrameContext ctx = {0}; int result; if (object && (object->filterStack || object->mixinStack) ) { CallStackUseActiveFrames(interp, &ctx); } if (!Tcl_Interp_varFramePtr(interp)) { CallStackRestoreSavedFrames(interp, &ctx); return NsfVarErrMsg(interp, "instvar used on ", objectName(object), ", but callstack is not in procedure scope", (char *) NULL); } result = NsfImportvar(interp, object, ObjStr(objv[0]), objc-1, objv+1); CallStackRestoreSavedFrames(interp, &ctx); return result; } static int NsfOMixinGuardMethod(Tcl_Interp *interp, NsfObject *object, CONST char *mixin, Tcl_Obj *guardObj) { NsfObjectOpt *opt = object->opt; if (opt && opt->mixins) { NsfClass *mixinCl = GetClassFromString(interp, mixin); Tcl_Command mixinCmd = NULL; if (mixinCl) { mixinCmd = Tcl_GetCommandFromObj(interp, mixinCl->object.cmdName); } if (mixinCmd) { NsfCmdList *h = CmdListFindCmdInList(mixinCmd, opt->mixins); if (h) { if (h->clientData) GuardDel((NsfCmdList *) h); GuardAdd(interp, h, guardObj); object->flags &= ~NSF_MIXIN_ORDER_VALID; return TCL_OK; } } } return NsfVarErrMsg(interp, "Mixinguard: can't find mixin ", mixin, " on ", objectName(object), (char *) NULL); } #if 0 /* method for calling e.g. $obj __next */ static int NsfONextMethod(Tcl_Interp *interp, NsfObject *object, int objc, Tcl_Obj *CONST objv[]) { NsfCallStackContent *cscPtr = CallStackGetObjectFrame(interp, object); CONST char *methodName; if (!cscPtr) return NsfVarErrMsg(interp, "__next: can't find object", objectName(object), (char *) NULL); methodName = (char *)Tcl_GetCommandName(interp, cscPtr->cmdPtr); /* fprintf(stderr, "methodName %s\n", methodName);*/ return NsfNextMethod(object, interp, cscPtr->cl, methodName, objc-1, &objv[1], 0, NULL); } #endif static int NsfONoinitMethod(Tcl_Interp *interp, NsfObject *object) { object->flags |= NSF_INIT_CALLED; return TCL_OK; } static int NsfORequireNamespaceMethod(Tcl_Interp *interp, NsfObject *object) { RequireObjNamespace(interp, object); return TCL_OK; } static int NsfOResidualargsMethod(Tcl_Interp *interp, NsfObject *object, int objc, Tcl_Obj *CONST objv[]) { Tcl_Obj **argv, **nextArgv, *resultObj; int i, start = 1, argc, nextArgc, normalArgs, result = TCL_OK, isdasharg = NO_DASH; CONST char *methodName, *nextMethodName; /* find arguments without leading dash */ for (i=start; i < objc; i++) { if ((isdasharg = IsDashArg(interp, objv[i], 1, &methodName, &argc, &argv))) { break; } } normalArgs = i-1; for( ; i < objc; argc=nextArgc, argv=nextArgv, methodName=nextMethodName) { Tcl_ResetResult(interp); switch (isdasharg) { case SKALAR_DASH: /* Argument is a skalar with a leading dash */ { int j; for (j = i+1; j < objc; j++, argc++) { if ((isdasharg = IsDashArg(interp, objv[j], j==i+1, &nextMethodName, &nextArgc, &nextArgv))) { break; } } result = CallConfigureMethod(interp, object, methodName, argc+1, objv+i+1); if (result != TCL_OK) { return result; } i += argc; break; } case LIST_DASH: /* Argument is a list with a leading dash, grouping determined by list */ { i++; if (i2) { CallFrame *cf; frameInfo = ObjStr(objv[1]); result = TclGetFrame(interp, frameInfo, &cf); if (result == -1) { return TCL_ERROR; } framePtr = (Tcl_CallFrame *)cf; i = result+1; } else { i = 1; } objc -= i; objv += i; if (!framePtr) { NsfCallStackFindLastInvocation(interp, 1, &framePtr); if (!framePtr) { framePtr = (Tcl_CallFrame *)Tcl_Interp_varFramePtr(interp)->callerVarPtr; if (!framePtr) { framePtr = (Tcl_CallFrame *)Tcl_Interp_varFramePtr(interp); } } } savedVarFramePtr = (Tcl_CallFrame *)Tcl_Interp_varFramePtr(interp); Tcl_Interp_varFramePtr(interp) = (CallFrame *)framePtr; /* * Execute the residual arguments as a command. */ if (objc == 1) { result = Tcl_EvalObjEx(interp, objv[0], TCL_EVAL_DIRECT); } else { /* * More than one argument: concatenate them together with spaces * between, then evaluate the result. Tcl_EvalObjEx will delete * the object when it decrements its refcount after eval'ing it. */ Tcl_Obj *objPtr = Tcl_ConcatObj(objc, objv); result = Tcl_EvalObjEx(interp, objPtr, TCL_EVAL_DIRECT); } if (result == TCL_ERROR) { char msg[32 + TCL_INTEGER_SPACE]; sprintf(msg, "\n (\"uplevel\" body line %d)", Tcl_GetErrorLine(interp)); Tcl_AddObjErrorInfo(interp, msg, -1); } /* * Restore the variable frame, and return. */ Tcl_Interp_varFramePtr(interp) = (CallFrame *)savedVarFramePtr; return result; } static int NsfOUpvarMethod(Tcl_Interp *interp, NsfObject *object, int objc, Tcl_Obj *CONST objv[]) { Tcl_Obj *frameInfoObj = NULL; int i, result = TCL_ERROR; CONST char *frameInfo; callFrameContext ctx = {0}; if (objc % 2 == 0) { frameInfo = ObjStr(objv[1]); i = 2; } else { frameInfoObj = ComputeLevelObj(interp, CALLING_LEVEL); INCR_REF_COUNT(frameInfoObj); frameInfo = ObjStr(frameInfoObj); i = 1; } if (object && (object->filterStack || object->mixinStack)) { CallStackUseActiveFrames(interp, &ctx); } for ( ; i < objc; i += 2) { result = Tcl_UpVar2(interp, frameInfo, ObjStr(objv[i]), NULL, ObjStr(objv[i+1]), 0 /*flags*/); if (result != TCL_OK) break; } if (frameInfoObj) { DECR_REF_COUNT(frameInfoObj); } CallStackRestoreSavedFrames(interp, &ctx); return result; } static int NsfOVolatileMethod(Tcl_Interp *interp, NsfObject *object) { Tcl_Obj *objPtr = object->cmdName; int result = TCL_ERROR; CONST char *fullName = ObjStr(objPtr); CONST char *vn; callFrameContext ctx = {0}; if (RUNTIME_STATE(interp)->exitHandlerDestroyRound != NSF_EXITHANDLER_OFF) { fprintf(stderr, "### Can't make objects volatile during shutdown\n"); return NsfVarErrMsg(interp, "Can't make objects volatile during shutdown\n", NULL); } CallStackUseActiveFrames(interp, &ctx); vn = NSTail(fullName); if (Tcl_SetVar2(interp, vn, NULL, fullName, 0)) { NsfObjectOpt *opt = NsfRequireObjectOpt(object); /*fprintf(stderr, "### setting trace for %s on frame %p\n", fullName, Tcl_Interp_varFramePtr(interp)); tcl85showStack(interp);*/ result = Tcl_TraceVar(interp, vn, TCL_TRACE_UNSETS, (Tcl_VarTraceProc*)NsfUnsetTrace, (ClientData)objPtr); opt->volatileVarName = vn; } CallStackRestoreSavedFrames(interp, &ctx); if (result == TCL_OK) { INCR_REF_COUNT(objPtr); } return result; } static int NsfOVwaitMethod(Tcl_Interp *interp, NsfObject *object, CONST char *varname) { int done, foundEvent; int flgs = TCL_TRACE_WRITES|TCL_TRACE_UNSETS; Tcl_CallFrame frame, *framePtr = &frame; /* * Make sure the var table exists and the varname is in there */ if (NSRequireVariableOnObj(interp, object, varname, flgs) == 0) return NsfVarErrMsg(interp, "Can't lookup (and create) variable ", varname, " on ", objectName(object), (char *) NULL); Nsf_PushFrameObj(interp, object, framePtr); /* * much of this is copied from Tcl, since we must avoid * access with flag TCL_GLOBAL_ONLY ... doesn't work on * obj->varTable vars */ if (Tcl_TraceVar(interp, varname, flgs, (Tcl_VarTraceProc *)VwaitVarProc, (ClientData) &done) != TCL_OK) { return TCL_ERROR; } done = 0; foundEvent = 1; while (!done && foundEvent) { foundEvent = Tcl_DoOneEvent(TCL_ALL_EVENTS); } Tcl_UntraceVar(interp, varname, flgs, (Tcl_VarTraceProc *)VwaitVarProc, (ClientData) &done); Nsf_PopFrameObj(interp, framePtr); /* * Clear out the interpreter's result, since it may have been set * by event handlers. */ Tcl_ResetResult(interp); if (!foundEvent) { return NsfVarErrMsg(interp, "can't wait for variable '", varname, "': would wait forever", (char *) NULL); } return TCL_OK; } /*************************** * End Object Methods ***************************/ /*************************** * Begin Class Methods ***************************/ static int NsfCAllocMethod(Tcl_Interp *interp, NsfClass *cl, Tcl_Obj *nameObj) { Tcl_Obj *tmpName = NULL; CONST char *nameString = ObjStr(nameObj); int result; /* * create a new object from scratch */ /*fprintf(stderr, " **** 0 class '%s' wants to alloc '%s'\n", className(cl), nameString);*/ if (!NSCheckColons(nameString, 0)) { return NsfVarErrMsg(interp, "Cannot allocate object -- illegal name '", nameString, "'", (char *) NULL); } /* * If the path is not absolute, we add the appropriate namespace */ if (!isAbsolutePath(nameString)) { nameObj = tmpName = NameInNamespaceObj(interp, nameString, CallingNameSpace(interp)); INCR_REF_COUNT(tmpName); /*fprintf(stderr, " **** NoAbsoluteName for '%s' -> determined = '%s'\n", name, ObjStr(tmpName));*/ nameString = ObjStr(tmpName); } if (IsMetaClass(interp, cl, 1)) { /* * if the base class is a meta-class, we create a class */ NsfClass *newcl = PrimitiveCCreate(interp, nameObj, cl); if (newcl == 0) { result = NsfVarErrMsg(interp, "Class alloc failed for '", nameString, "' (possibly parent namespace does not exist)", (char *) NULL); } else { Tcl_SetObjResult(interp, nameObj); result = TCL_OK; } } else { /* * if the base class is an ordinary class, we create an object */ NsfObject *newObj = PrimitiveOCreate(interp, nameObj, cl); if (newObj == 0) result = NsfVarErrMsg(interp, "Object alloc failed for '", nameString, "' (possibly parent namespace does not exist)", (char *) NULL); else { Tcl_SetObjResult(interp, nameObj); result = TCL_OK; } } if (tmpName) { DECR_REF_COUNT(tmpName); } return result; } static int NsfCCreateMethod(Tcl_Interp *interp, NsfClass *cl, CONST char *specifiedName, int objc, Tcl_Obj *CONST objv[]) { NsfObject *newObject = NULL; Tcl_Obj *nameObj, *methodObj, *tmpObj = NULL; Tcl_Obj **nobjv; int result; CONST char *nameString = specifiedName; ALLOC_ON_STACK(Tcl_Obj*, objc, tov); if (RUNTIME_STATE(interp)->exitHandlerDestroyRound != NSF_EXITHANDLER_OFF) { fprintf(stderr, "### Can't create object %s during shutdown\n", ObjStr(objv[1])); return TCL_OK; /* don't fail, if this happens during destroy, it might be canceled */ } /* * complete the name if it is not absolute */ if (!isAbsolutePath(nameString)) { tmpObj = NameInNamespaceObj(interp, nameString, CallingNameSpace(interp)); nameString = ObjStr(tmpObj); /*fprintf(stderr, " **** fixed name is '%s'\n", nameString);*/ INCR_REF_COUNT(tmpObj); memcpy(tov, objv, sizeof(Tcl_Obj *)*(objc)); tov[1] = tmpObj; nameObj = tmpObj; nobjv = tov; } else { nameObj = objv[1]; nobjv = (Tcl_Obj **)objv; } /* * Check whether we have to call recreate (i.e. when the * object exists already) */ newObject = GetObjectFromString(interp, nameString); /*fprintf(stderr, "+++ createspecifiedName '%s', nameString '%s', newObject=%p ismeta(%s) %d, ismeta(%s) %d\n", specifiedName, nameString, newObject, className(cl), IsMetaClass(interp, cl, 1), newObject ? ObjStr(newObject->cl->object.cmdName) : "NULL", newObject ? IsMetaClass(interp, newObject->cl, 1) : NULL );*/ /* don't allow to - recreate an object as a class, - recreate a class as an object, and to - recreate an object in a different object system In these clases, we use destroy + create instead of recrate. */ if (newObject && (IsMetaClass(interp, cl, 1) == IsMetaClass(interp, newObject->cl, 1)) && GetObjectSystem(newObject) == cl->osPtr) { /*fprintf(stderr, "%%%% recreate, call recreate method ... %s, objc=%d oldOs %p != newOs %p EQ %d\n", ObjStr(nameObj), objc+1, GetObjectSystem(newObject), cl->osPtr, GetObjectSystem(newObject) != cl->osPtr ); */ /* call recreate --> initialization */ if (CallDirectly(interp, &cl->object, NSF_c_recreate_idx, &methodObj)) { result = RecreateObject(interp, cl, newObject, objc, nobjv); } else { result = CallMethod((ClientData) cl, interp, methodObj, objc+1, nobjv+1, NSF_CM_NO_PROTECT); } if (result != TCL_OK) goto create_method_exit; Tcl_SetObjResult(interp, newObject->cmdName); nameObj = newObject->cmdName; ObjTrace("RECREATE", newObject); } else { /* * newObject might exist here, but will be automatically destroyed by * alloc */ /*fprintf(stderr, "alloc ... %s\n", ObjStr(nameObj));*/ if (CallDirectly(interp, &cl->object, NSF_c_alloc_idx, &methodObj)) { result = NsfCAllocMethod(interp, cl, nameObj); } else { result = CallMethod((ClientData) cl, interp, methodObj, 3, &nameObj, 0); } if (result != TCL_OK) goto create_method_exit; nameObj = Tcl_GetObjResult(interp); if (GetObjectFromObj(interp, nameObj, &newObject) != TCL_OK) { result = NsfErrMsg(interp, "couldn't find result of alloc", TCL_STATIC); goto create_method_exit; } /*(void)RemoveInstance(newObject, newObject->cl);*/ /* TODO needed? remove? */ AddInstance(newObject, cl); ObjTrace("CREATE", newObject); /* in case, the object is destroyed during initialization, we incr refcount */ INCR_REF_COUNT(nameObj); result = DoObjInitialization(interp, newObject, objc, objv); DECR_REF_COUNT(nameObj); } create_method_exit: /*fprintf(stderr, "create -- end ... %s => %d\n", ObjStr(nameObj), result);*/ if (tmpObj) {DECR_REF_COUNT(tmpObj);} FREE_ON_STACK(Tcl_Obj *, tov); return result; } static int DoDealloc(Tcl_Interp *interp, NsfObject *object) { int result; /*fprintf(stderr, "DoDealloc obj= %s %p flags %.6x activation %d cmd %p opt=%p\n", objectName(object), object, object->flags, object->activationCount, object->id, object->opt);*/ result = FreeUnsetTraceVariable(interp, object); if (result != TCL_OK) { return result; } /* * latch, and call delete command if not already in progress */ if (RUNTIME_STATE(interp)->exitHandlerDestroyRound != NSF_EXITHANDLER_ON_SOFT_DESTROY) { CallStackDestroyObject(interp, object); } return TCL_OK; } static int NsfCDeallocMethod(Tcl_Interp *interp, NsfClass *cl, Tcl_Obj *obj) { NsfObject *object; /* fprintf(stderr, "NsfCDeallocMethod obj %p %s\n",obj, ObjStr(obj));*/ if (GetObjectFromObj(interp, obj, &object) != TCL_OK) { /* TODO: remove me */ fprintf(stderr, "**** nsf object %s does not exist\n", ObjStr(obj)); return NsfVarErrMsg(interp, "Can't destroy object ", ObjStr(obj), " that does not exist.", (char *) NULL); } return DoDealloc(interp, object); } static int NsfCNewMethod(Tcl_Interp *interp, NsfClass *cl, NsfObject *withChildof, int objc, Tcl_Obj *CONST objv[]) { Tcl_Obj *fullnameObj; int result, prefixLength; Tcl_DString dFullname, *dsPtr = &dFullname; NsfStringIncrStruct *iss = &RUNTIME_STATE(interp)->iss; Tcl_DStringInit(dsPtr); if (withChildof) { Tcl_DStringAppend(dsPtr, objectName(withChildof), -1); Tcl_DStringAppend(dsPtr, "::__#", 5); } else { Tcl_DStringAppend(dsPtr, "::nsf::__#", 10); } prefixLength = dsPtr->length; while (1) { (void)NsfStringIncr(iss); Tcl_DStringAppend(dsPtr, iss->start, iss->length); if (!Tcl_FindCommand(interp, Tcl_DStringValue(dsPtr), NULL, 0)) { break; } /* in case the value existed already, reset prefix to the original length */ Tcl_DStringSetLength(dsPtr, prefixLength); } fullnameObj = Tcl_NewStringObj(Tcl_DStringValue(dsPtr), Tcl_DStringLength(dsPtr)); INCR_REF_COUNT(fullnameObj); { Tcl_Obj *methodObj; int callDirectly; ALLOC_ON_STACK(Tcl_Obj*, objc+3, ov); callDirectly = CallDirectly(interp, &cl->object, NSF_c_create_idx, &methodObj); ov[0] = objv[0]; ov[1] = methodObj; ov[2] = fullnameObj; if (objc >= 1) memcpy(ov+3, objv, sizeof(Tcl_Obj *)*objc); if (callDirectly) { result = NsfCCreateMethod(interp, cl, ObjStr(fullnameObj), objc+2, ov+1); } else { result = ObjectDispatch((ClientData)cl, interp, objc+3, ov, 0); } FREE_ON_STACK(Tcl_Obj *, ov); } DECR_REF_COUNT(fullnameObj); Tcl_DStringFree(dsPtr); return result; } static int NsfCFilterGuardMethod(Tcl_Interp *interp, NsfClass *cl, CONST char *filter, Tcl_Obj *guardObj) { NsfClassOpt *opt = cl->opt; if (opt && opt->classfilters) { NsfCmdList *h = CmdListFindNameInList(interp, filter, opt->classfilters); if (h) { if (h->clientData) GuardDel(h); GuardAdd(interp, h, guardObj); FilterInvalidateObjOrders(interp, cl); return TCL_OK; } } return NsfVarErrMsg(interp, "filterguard: can't find filter ", filter, " on ", className(cl), (char *) NULL); } static int NsfCMixinGuardMethod(Tcl_Interp *interp, NsfClass *cl, CONST char *mixin, Tcl_Obj *guardObj) { NsfClassOpt *opt = cl->opt; if (opt && opt->classmixins) { NsfClass *mixinCl = GetClassFromString(interp, mixin); Tcl_Command mixinCmd = NULL; if (mixinCl) { mixinCmd = Tcl_GetCommandFromObj(interp, mixinCl->object.cmdName); } if (mixinCmd) { NsfCmdList *h = CmdListFindCmdInList(mixinCmd, opt->classmixins); if (h) { if (h->clientData) GuardDel((NsfCmdList *) h); GuardAdd(interp, h, guardObj); MixinInvalidateObjOrders(interp, cl); return TCL_OK; } } } return NsfVarErrMsg(interp, "mixinguard: can't find mixin ", mixin, " on ", className(cl), (char *) NULL); } static int RecreateObject(Tcl_Interp *interp, NsfClass *class, NsfObject *object, int objc, Tcl_Obj *CONST objv[]) { int result; object->flags |= NSF_RECREATE; /* * First, cleanup the data from the object. * * Check whether we have a pending destroy on the object; if yes, * clear it, such that the recreated object and won't be destroyed * on a POP */ MarkUndestroyed(object); /* * ensure correct class for object */ result = ChangeClass(interp, object, class); if (result == TCL_OK) { Tcl_Obj *methodObj; /* * dispatch "cleanup" method */ if (CallDirectly(interp, object, NSF_o_cleanup_idx, &methodObj)) { result = NsfOCleanupMethod(interp, object); } else { result = CallMethod((ClientData) object, interp, methodObj, 2, 0, NSF_CM_NO_PROTECT); } } /* * Second: if cleanup was successful, initialize the object as usual */ if (result == TCL_OK) { result = DoObjInitialization(interp, object, objc, objv); if (result == TCL_OK) { Tcl_SetObjResult(interp, object->cmdName); } } return result; } static int NsfCRecreateMethod(Tcl_Interp *interp, NsfClass *cl, Tcl_Obj *nameObj, int objc, Tcl_Obj *CONST objv[]) { NsfObject *object; if (GetObjectFromObj(interp, nameObj, &object) != TCL_OK) return NsfVarErrMsg(interp, "can't recreate non existing object ", ObjStr(nameObj), (char *) NULL); return RecreateObject(interp, cl, object, objc, objv); } /*************************** * End Class Methods ***************************/ #if 0 /*************************** * Begin check Methods ***************************/ static int NsfCheckBooleanArgs(Tcl_Interp *interp, CONST char *name, Tcl_Obj *valueObj) { int result, bool; Tcl_Obj *boolean; if (value == NULL) { /* the variable is not yet defined (set), so we cannot check whether it is boolean or not */ return TCL_OK; } boolean = Tcl_DuplicateObj(valueObj); INCR_REF_COUNT(boolean); result = Tcl_GetBooleanFromObj(interp, boolean, &bool); DECR_REF_COUNT(boolean); Tcl_ResetResult(interp); Tcl_SetIntObj(Tcl_GetObjResult(interp), (result == TCL_OK)); return TCL_OK; } static int NsfCheckRequiredArgs(Tcl_Interp *interp, CONST char *name, Tcl_Obj *valueObj) { if (value == NULL) { return NsfVarErrMsg(interp, "required arg: '", name, "' missing", (char *) NULL); } Tcl_ResetResult(interp); Tcl_SetIntObj(Tcl_GetObjResult(interp), 1); return TCL_OK; } /*************************** * End check Methods ***************************/ #endif static int AggregatedMethodType(int methodType) { switch (methodType) { case MethodtypeNULL: /* default */ case MethodtypeAllIdx: methodType = NSF_METHODTYPE_ALL; break; case MethodtypeScriptedIdx: /*methodType = NSF_METHODTYPE_SCRIPTED|NSF_METHODTYPE_ALIAS;*/ methodType = NSF_METHODTYPE_SCRIPTED; break; case MethodtypeBuiltinIdx: methodType = NSF_METHODTYPE_BUILTIN|NSF_METHODTYPE_OBJECT; break; case MethodtypeForwarderIdx: methodType = NSF_METHODTYPE_FORWARDER; break; case MethodtypeAliasIdx: methodType = NSF_METHODTYPE_ALIAS; break; case MethodtypeSetterIdx: methodType = NSF_METHODTYPE_SETTER; break; case MethodtypeObjectIdx: methodType = NSF_METHODTYPE_OBJECT; break; default: methodType = 0; } return methodType; } /*************************** * Begin Object Info Methods ***************************/ /* objectInfoMethod children NsfObjInfoChildrenMethod { {-argName "-type" -required 0 -nrargs 1 -type class} {-argName "pattern" -required 0} } */ static int NsfObjInfoChildrenMethod(Tcl_Interp *interp, NsfObject *object, NsfClass *type, CONST char *pattern) { return ListChildren(interp, object, pattern, 0, type); } /* objectInfoMethod class NsfObjInfoClassMethod { } */ static int NsfObjInfoClassMethod(Tcl_Interp *interp, NsfObject *object) { Tcl_SetObjResult(interp, object->cl->object.cmdName); return TCL_OK; } /* objectInfoMethod filterguard NsfObjInfoFilterguardMethod { {-argName "filter" -required 1} } */ static int NsfObjInfoFilterguardMethod(Tcl_Interp *interp, NsfObject *object, CONST char *filter) { return object->opt ? GuardList(interp, object->opt->filters, filter) : TCL_OK; } /* objectInfoMethod filtermethods NsfObjInfoFiltermethodsMethod { {-argName "-guards"} {-argName "-order"} {-argName "pattern"} } */ static int NsfObjInfoFiltermethodsMethod(Tcl_Interp *interp, NsfObject *object, int withGuards, int withOrder, CONST char *pattern) { NsfObjectOpt *opt = object->opt; if (withOrder) { if (!(object->flags & NSF_FILTER_ORDER_VALID)) FilterComputeDefined(interp, object); return FilterInfo(interp, object->filterOrder, pattern, withGuards, 1); } return opt ? FilterInfo(interp, opt->filters, pattern, withGuards, 0) : TCL_OK; } /* objectInfoMethod forward NsfObjInfoForwardMethod { {-argName "-definition"} {-argName "name"} } */ static int NsfObjInfoForwardMethod(Tcl_Interp *interp, NsfObject *object, int withDefinition, CONST char *pattern) { return object->nsPtr ? ListForward(interp, Tcl_Namespace_cmdTable(object->nsPtr), pattern, withDefinition) : TCL_OK; } /* objectInfoMethod hasmixin NsfObjInfoHasMixinMethod { {-argName "class" -type class} } */ static int NsfObjInfoHasMixinMethod(Tcl_Interp *interp, NsfObject *object, NsfClass *mixinClass) { Tcl_SetBooleanObj(Tcl_GetObjResult(interp), HasMixin(interp, object, mixinClass)); return TCL_OK; } /* objectInfoMethod hasnamespace NsfObjInfoHasnamespaceMethod { } */ static int NsfObjInfoHasnamespaceMethod(Tcl_Interp *interp, NsfObject *object) { Tcl_SetBooleanObj(Tcl_GetObjResult(interp), object->nsPtr != NULL); return TCL_OK; } /* objectInfoMethod hastype NsfObjInfoHasTypeMethod { {-argName "class" -type class} } */ static int NsfObjInfoHasTypeMethod(Tcl_Interp *interp, NsfObject *object, NsfClass *typeClass) { Tcl_SetBooleanObj(Tcl_GetObjResult(interp), IsSubType(object->cl, typeClass)); return TCL_OK; } /* objectInfoMethod is NsfObjInfoIsMethod { {-argName "objectkind" -type "class|baseclass|metaclass"} } */ static int NsfObjInfoIsMethod(Tcl_Interp *interp, NsfObject *object, int objectkind) { int success = 0; switch (objectkind) { case ObjectkindClassIdx: success = (NsfObjectIsClass(object) > 0); break; case ObjectkindMetaclassIdx: success = NsfObjectIsClass(object) && IsMetaClass(interp, (NsfClass*)object, 1); break; case ObjectkindBaseclassIdx: success = NsfObjectIsClass(object) && IsBaseClass((NsfClass*)object); break; } Tcl_SetIntObj(Tcl_GetObjResult(interp), success); return TCL_OK; } /* objectInfoMethod lookupfilter NsfObjInfoLookupFilterMethod { {-argName "filter"} } */ static int NsfObjInfoLookupFilterMethod(Tcl_Interp *interp, NsfObject *object, CONST char *filter) { CONST char *filterName; NsfCmdList *cmdList; NsfClass *fcl; /* * Searches for filter on [self] and returns fully qualified name * if it is not found it returns an empty string */ Tcl_ResetResult(interp); if (!(object->flags & NSF_FILTER_ORDER_VALID)) FilterComputeDefined(interp, object); if (!(object->flags & NSF_FILTER_ORDER_DEFINED)) return TCL_OK; for (cmdList = object->filterOrder; cmdList; cmdList = cmdList->nextPtr) { filterName = Tcl_GetCommandName(interp, cmdList->cmdPtr); if (filterName[0] == filter[0] && !strcmp(filterName, filter)) break; } if (!cmdList) return TCL_OK; fcl = cmdList->clorobj; return ListMethodHandle(interp, (NsfObject*)fcl, !NsfObjectIsClass(&fcl->object), filterName); } /* objectInfoMethod lookupmethod NsfObjInfoLookupMethodMethod { {-argName "pattern" -required 0} } */ static int NsfObjInfoLookupMethodMethod(Tcl_Interp *interp, NsfObject *object, CONST char *name) { NsfClass *pcl = NULL; Tcl_Command cmd = ObjectFindMethod(interp, object, name, &pcl); if (cmd) { NsfObject *pobj = pcl ? &pcl->object : object; int perObject = (pcl == NULL); ListMethod(interp, pobj, pobj, name, cmd, InfomethodsubcmdHandleIdx, perObject); } return TCL_OK; } /* objectInfoMethod lookupmethods NsfObjInfoLookupMethodsMethod { {-argName "-methodtype" -nrargs 1 -type "all|scripted|builtin|alias|forwarder|object|setter"} {-argName "-callprotection" -nrargs 1 -type "all|protected|public" -default all} {-argName "-application"} {-argName "-nomixins"} {-argName "-incontext"} {-argName "pattern" -required 0} } */ static int NsfObjInfoLookupMethodsMethod(Tcl_Interp *interp, NsfObject *object, int withMethodtype, int withCallprotection, int withApplication, int withNomixins, int withIncontext, CONST char *pattern) { /* todo: own method needed? */ NsfClasses *pl; int withPer_object = 1; Tcl_HashTable *cmdTable, dupsTable, *dups = &dupsTable; int methodType = AggregatedMethodType(withMethodtype); /* * TODO: we could make this faster for patterns without metachars * by letting ListMethodKeys() to signal us when an entry was found. * we wait, until the we decided about "info methods defined" * vs. "info method search" vs. "info defined" etc. */ if (withCallprotection == CallprotectionNULL) { withCallprotection = CallprotectionPublicIdx; } if (withApplication && object->flags & IsBaseClass((NsfClass*)object)) { return TCL_OK; } Tcl_InitHashTable(dups, TCL_STRING_KEYS); if (object->nsPtr) { cmdTable = Tcl_Namespace_cmdTable(object->nsPtr); ListMethodKeys(interp, cmdTable, pattern, methodType, withCallprotection, dups, object, withPer_object); } if (!withNomixins) { if (!(object->flags & NSF_MIXIN_ORDER_VALID)) MixinComputeDefined(interp, object); if (object->flags & NSF_MIXIN_ORDER_DEFINED_AND_VALID) { NsfCmdList *ml; NsfClass *mixin; for (ml = object->mixinOrder; ml; ml = ml->nextPtr) { int guardOk = TCL_OK; mixin = NsfGetClassFromCmdPtr(ml->cmdPtr); assert(mixin); if (withIncontext) { if (!RUNTIME_STATE(interp)->guardCount) { guardOk = GuardCall(object, 0, 0, interp, ml->clientData, NULL); } } if (mixin && guardOk == TCL_OK) { Tcl_HashTable *cmdTable = Tcl_Namespace_cmdTable(mixin->nsPtr); ListMethodKeys(interp, cmdTable, pattern, methodType, withCallprotection, dups, object, withPer_object); } } } } /* append method keys from inheritance order */ for (pl = ComputeOrder(object->cl, object->cl->order, Super); pl; pl = pl->nextPtr) { Tcl_HashTable *cmdTable = Tcl_Namespace_cmdTable(pl->cl->nsPtr); if (withApplication && IsBaseClass(pl->cl)) { break; } ListMethodKeys(interp, cmdTable, pattern, methodType, withCallprotection, dups, object, withPer_object); } Tcl_DeleteHashTable(dups); return TCL_OK; } /* objectInfoMethod lookupslots NsfObjInfoLookupSlotsMethod { {-argName "-type" -required 0 -nrargs 1 -type class} } */ static int NsfObjInfoLookupSlotsMethod(Tcl_Interp *interp, NsfObject *object, NsfClass *type) { NsfObjects *pl, *slotObjects; Tcl_Obj *list = Tcl_NewListObj(0, NULL); slotObjects = ComputeSlotObjects(interp, object, type, 1); for (pl=slotObjects; pl; pl = pl->nextPtr) { Tcl_ListObjAppendElement(interp, list, pl->obj->cmdName); } NsfObjectListFree(slotObjects); Tcl_SetObjResult(interp, list); return TCL_OK; } /* objectInfoMethod method NsfObjInfoMethodMethod { {-argName "infomethodsubcmd" -type "args|body|definition|handle|parameter|parametersyntax|type|precondition|postcondition|subcommands"} {-argName "name"} } */ static int NsfObjInfoMethodMethod(Tcl_Interp *interp, NsfObject *object, int subcmd, Tcl_Obj *methodNameObj) { NsfObject *regObject, *defObject; CONST char *methodName1 = NULL; int fromClassNS = 0, result; Tcl_DString ds, *dsPtr = &ds; Tcl_Command cmd; Tcl_DStringInit(dsPtr); cmd = ResolveMethodName(interp, object->nsPtr, methodNameObj, dsPtr, ®Object, &defObject, &methodName1, &fromClassNS); /*fprintf(stderr, "object %p regObject %p defObject %p fromClass %d\n", object,regObject,defObject,fromClassNS);*/ result = ListMethod(interp, regObject ? regObject : object, defObject ? defObject : object, methodName1, cmd, subcmd, fromClassNS ? 0 : 1); Tcl_DStringFree(dsPtr); return result; } /* objectInfoMethod methods NsfObjInfoMethodsMethod { {-argName "-methodtype" -nrargs 1 -type "all|scripted|builtin|alias|forwarder|object|setter"} {-argName "-callprotection" -nrargs 1 -type "all|protected|public" -default public} {-argName "-nomixins"} {-argName "-incontext"} {-argName "pattern"} } */ static int NsfObjInfoMethodsMethod(Tcl_Interp *interp, NsfObject *object, int withMethodtype, int withCallproctection, int withNomixins, int withIncontext, CONST char *pattern) { return ListDefinedMethods(interp, object, pattern, 1 /* per-object */, AggregatedMethodType(withMethodtype), withCallproctection, withNomixins, withIncontext); } /* objectInfoMethod mixinclasses NsfObjInfoMixinclassesMethod { {-argName "-guards"} {-argName "-order"} {-argName "pattern" -type objpattern} } */ static int NsfObjInfoMixinclassesMethod(Tcl_Interp *interp, NsfObject *object, int withGuards, int withOrder, CONST char *patternString, NsfObject *patternObj) { if (withOrder) { if (!(object->flags & NSF_MIXIN_ORDER_VALID)) MixinComputeDefined(interp, object); return MixinInfo(interp, object->mixinOrder, patternString, withGuards, patternObj); } return object->opt ? MixinInfo(interp, object->opt->mixins, patternString, withGuards, patternObj) : TCL_OK; } /* objectInfoMethod mixinguard NsfObjInfoMixinguardMethod { {-argName "mixin" -required 1} } */ static int NsfObjInfoMixinguardMethod(Tcl_Interp *interp, NsfObject *object, CONST char *mixin) { return object->opt ? GuardList(interp, object->opt->mixins, mixin) : TCL_OK; } /* objectInfoMethod parent NsfObjInfoParentMethod { } */ static int NsfObjInfoParentMethod(Tcl_Interp *interp, NsfObject *object) { if (object->id) { Tcl_SetResult(interp, NSCmdFullName(object->id), TCL_VOLATILE); } return TCL_OK; } /* objectInfoMethod precedence NsfObjInfoPrecedenceMethod { {-argName "-intrinsic"} {-argName "pattern" -required 0} } */ static int NsfObjInfoPrecedenceMethod(Tcl_Interp *interp, NsfObject *object, int withIntrinsicOnly, CONST char *pattern) { NsfClasses *precedenceList = NULL, *pl; precedenceList = ComputePrecedenceList(interp, object, pattern, !withIntrinsicOnly, 1); for (pl = precedenceList; pl; pl = pl->nextPtr) { Tcl_AppendElement(interp, className(pl->cl)); } NsfClassListFree(precedenceList); return TCL_OK; } /* objectInfoMethod vars NsfObjInfoVarsMethod { {-argName "pattern" -required 0} } */ static int NsfObjInfoVarsMethod(Tcl_Interp *interp, NsfObject *object, CONST char *pattern) { Tcl_Obj *varlist, *okList, *element; int i, length; TclVarHashTable *varTable = object->nsPtr ? Tcl_Namespace_varTable(object->nsPtr) : object->varTable; ListVarKeys(interp, VarHashTable(varTable), pattern); varlist = Tcl_GetObjResult(interp); Tcl_ListObjLength(interp, varlist, &length); okList = Tcl_NewListObj(0, NULL); for (i=0; iopt ? GuardList(interp, class->opt->classfilters, filter) : TCL_OK; } /* classInfoMethod filtermethods NsfClassInfoFiltermethodsMethod { {-argName "-guards"} {-argName "pattern"} } */ static int NsfClassInfoFiltermethodsMethod(Tcl_Interp *interp, NsfClass *class, int withGuards, CONST char *pattern) { return class->opt ? FilterInfo(interp, class->opt->classfilters, pattern, withGuards, 0) : TCL_OK; } /* classInfoMethod forward NsfClassInfoForwardMethod { {-argName "-definition"} {-argName "name"} } */ static int NsfClassInfoForwardMethod(Tcl_Interp *interp, NsfClass *class, int withDefinition, CONST char *pattern) { return ListForward(interp, Tcl_Namespace_cmdTable(class->nsPtr), pattern, withDefinition); } /* classInfoMethod heritage NsfClassInfoHeritageMethod { {-argName "pattern"} } */ static int NsfClassInfoHeritageMethod(Tcl_Interp *interp, NsfClass *cl, CONST char *pattern) { NsfClasses *pl = ComputeOrder(cl, cl->order, Super); Tcl_ResetResult(interp); if (pl) pl=pl->nextPtr; for (; pl; pl = pl->nextPtr) { AppendMatchingElement(interp, pl->cl->object.cmdName, pattern); } return TCL_OK; } /* * get all instances of a class recursively into an initialized * String key hashtable */ static int NsfClassInfoInstancesMethod1(Tcl_Interp *interp, NsfClass *startCl, int withClosure, CONST char *pattern, NsfObject *matchObject) { Tcl_HashTable *tablePtr = &startCl->instances; NsfClasses *sc; Tcl_HashSearch search; Tcl_HashEntry *hPtr; int rc = 0; /*fprintf(stderr, "NsfClassInfoInstancesMethod: clo %d pattern %s match %p\n", withClosure, pattern, matchObject);*/ for (hPtr = Tcl_FirstHashEntry(tablePtr, &search); hPtr; hPtr = Tcl_NextHashEntry(&search)) { NsfObject *inst = (NsfObject*) Tcl_GetHashKey(tablePtr, hPtr); /*fprintf(stderr, "match '%s' %p %p '%s'\n", matchObject ? objectName(matchObject) : "NULL", matchObject, inst, objectName(inst));*/ if (matchObject && inst == matchObject) { Tcl_SetObjResult(interp, matchObject->cmdName); return 1; } AppendMatchingElement(interp, inst->cmdName, pattern); } if (withClosure) { for (sc = startCl->sub; sc; sc = sc->nextPtr) { rc = NsfClassInfoInstancesMethod1(interp, sc->cl, withClosure, pattern, matchObject); if (rc) break; } } return rc; } /* classInfoMethod instances NsfClassInfoInstancesMethod { {-argName "-closure"} {-argName "pattern" -type objpattern} } */ static int NsfClassInfoInstancesMethod(Tcl_Interp *interp, NsfClass *startCl, int withClosure, CONST char *pattern, NsfObject *matchObject) { NsfClassInfoInstancesMethod1(interp, startCl, withClosure, pattern, matchObject); return TCL_OK; } /* classInfoMethod method NsfClassInfoMethodMethod { {-argName "infomethodsubcmd" -type "args|body|definition|handle|parameter|parametersyntax|type|precondition|postcondition|subcommands"} {-argName "name"} } */ static int NsfClassInfoMethodMethod(Tcl_Interp *interp, NsfClass *class, int subcmd, Tcl_Obj *methodNameObj) { NsfObject *regObject, *defObject; CONST char *methodName1 = NULL; int fromClassNS = 1, result; Tcl_DString ds, *dsPtr = &ds; Tcl_Command cmd; Tcl_DStringInit(dsPtr); cmd = ResolveMethodName(interp, class->nsPtr, methodNameObj, dsPtr, ®Object, &defObject, &methodName1, &fromClassNS); /*fprintf(stderr, "object %p regObject %p defObject %p fromClass %d\n", &class->object,regObject,defObject,fromClassNS);*/ result = ListMethod(interp, regObject ? regObject : &class->object, defObject ? defObject : &class->object, methodName1, cmd, subcmd, fromClassNS ? 0 : 1); Tcl_DStringFree(dsPtr); return result; } /* classInfoMethod methods NsfClassInfoMethodsMethod { {-argName "-methodtype" -nrargs 1 -type "all|scripted|builtin|alias|forwarder|object|setter"} {-argName "-callprotection" -nrargs 1 -type "all|protected|public" -default public} {-argName "-nomixins"} {-argName "-incontext"} {-argName "pattern"} } */ static int NsfClassInfoMethodsMethod(Tcl_Interp *interp, NsfClass *class, int withMethodtype, int withCallproctection, int withNomixins, int withIncontext, CONST char *pattern) { return ListDefinedMethods(interp, &class->object, pattern, 0 /* per-object */, AggregatedMethodType(withMethodtype), withCallproctection, withNomixins, withIncontext); } /* classInfoMethod mixinclasses NsfClassInfoMixinclassesMethod { {-argName "-closure"} {-argName "-guards"} {-argName "pattern" -type objpattern} } */ static int NsfClassInfoMixinclassesMethod(Tcl_Interp *interp, NsfClass *class, int withClosure, int withGuards, CONST char *patternString, NsfObject *patternObj) { NsfClassOpt *opt = class->opt; int rc; if (withClosure) { Tcl_HashTable objTable, *commandTable = &objTable; MEM_COUNT_ALLOC("Tcl_InitHashTable", commandTable); Tcl_InitHashTable(commandTable, TCL_ONE_WORD_KEYS); rc = GetAllClassMixins(interp, commandTable, class, withGuards, patternString, patternObj); if (patternObj && rc && !withGuards) { Tcl_SetObjResult(interp, rc ? patternObj->cmdName : NsfGlobalObjs[NSF_EMPTY]); } Tcl_DeleteHashTable(commandTable); MEM_COUNT_FREE("Tcl_InitHashTable", commandTable); } else { rc = opt ? MixinInfo(interp, opt->classmixins, patternString, withGuards, patternObj) : TCL_OK; } return TCL_OK; } /* classInfoMethod mixinguard NsfClassInfoMixinguardMethod { {-argName "mixin" -required 1} } */ static int NsfClassInfoMixinguardMethod(Tcl_Interp *interp, NsfClass *class, CONST char *mixin) { return class->opt ? GuardList(interp, class->opt->classmixins, mixin) : TCL_OK; } /* classInfoMethod mixinof NsfClassInfoMixinOfMethod { {-argName "-closure"} {-argName "-scope" -required 0 -nrargs 1 -type "all|class|object"} {-argName "pattern" -type objpattern} } */ static int NsfClassInfoMixinOfMethod(Tcl_Interp *interp, NsfClass *class, int withClosure, int withScope, CONST char *patternString, NsfObject *patternObj) { NsfClassOpt *opt = class->opt; int perClass, perObject; int rc; if (withScope == ScopeNULL || withScope == ScopeAllIdx) { perClass = 1; perObject = 1; } else if (withScope == ScopeClassIdx) { perClass = 1; perObject = 0; } else { perClass = 0; perObject = 1; } if (opt && !withClosure) { if (perClass) { rc = AppendMatchingElementsFromCmdList(interp, opt->isClassMixinOf, patternString, patternObj); if (rc && patternObj) {goto finished;} } if (perObject) { rc = AppendMatchingElementsFromCmdList(interp, opt->isObjectMixinOf, patternString, patternObj); } } else if (withClosure) { Tcl_HashTable objTable, *commandTable = &objTable; MEM_COUNT_ALLOC("Tcl_InitHashTable", commandTable); Tcl_InitHashTable(commandTable, TCL_ONE_WORD_KEYS); if (perClass) { rc = GetAllClassMixinsOf(interp, commandTable, class, 0, 1, patternString, patternObj); if (rc && patternObj) {goto finished;} } if (perObject) { rc = GetAllObjectMixinsOf(interp, commandTable, class, 0, 1, patternString, patternObj); } Tcl_DeleteHashTable(commandTable); MEM_COUNT_FREE("Tcl_InitHashTable", commandTable); } finished: if (patternObj) { Tcl_SetObjResult(interp, rc ? patternObj->cmdName : NsfGlobalObjs[NSF_EMPTY]); } return TCL_OK; } /* classInfoMethod subclass NsfClassInfoSubclassMethod { {-argName "-closure"} {-argName "pattern" -type objpattern} } */ static int NsfClassInfoSubclassMethod(Tcl_Interp *interp, NsfClass *class, int withClosure, CONST char *patternString, NsfObject *patternObj) { int rc; if (withClosure) { NsfClasses *saved = class->order, *subclasses; class->order = NULL; subclasses = ComputeOrder(class, class->order, Sub); class->order = saved; rc = AppendMatchingElementsFromClasses(interp, subclasses ? subclasses->nextPtr:NULL, patternString, patternObj); NsfClassListFree(subclasses); } else { rc = AppendMatchingElementsFromClasses(interp, class->sub, patternString, patternObj); } if (patternObj) { Tcl_SetObjResult(interp, rc ? patternObj->cmdName : NsfGlobalObjs[NSF_EMPTY]); } return TCL_OK; } /* classInfoMethod superclass NsfClassInfoSuperclassMethod { {-argName "-closure"} {-argName "pattern" -type tclobj} } */ static int NsfClassInfoSuperclassMethod(Tcl_Interp *interp, NsfClass *class, int withClosure, Tcl_Obj *pattern) { return ListSuperclasses(interp, class, pattern, withClosure); } /*************************** * End Class Info methods ***************************/ /* * New Tcl Commands */ static int ProcessMethodArguments(ParseContext *pcPtr, Tcl_Interp *interp, NsfObject *object, int pushFrame, NsfParamDefs *paramDefs, CONST char *methodName, int objc, Tcl_Obj *CONST objv[]) { int result; Tcl_CallFrame frame, *framePtr = &frame; if (object && pushFrame) { Nsf_PushFrameObj(interp, object, framePtr); } result = ArgumentParse(interp, objc, objv, object, objv[0], paramDefs->paramsPtr, paramDefs->nrParams, RUNTIME_STATE(interp)->doCheckArguments, pcPtr); if (object && pushFrame) { Nsf_PopFrameObj(interp, framePtr); } if (result != TCL_OK) { return result; } /* * Set objc of the parse context to the number of defined parameters. * pcPtr->objc and paramDefs->nrParams will be equivalent in cases * where argument values are passed to the call in absence of var * args ('args'). Treating "args is more involved (see below). */ pcPtr->objc = paramDefs->nrParams + 1; if (pcPtr->varArgs) { /* * The last argument was "args". */ int elts = objc - pcPtr->lastobjc; if (elts == 0) { /* * No arguments were passed to "args". We simply decrement objc. */ pcPtr->objc--; } else if (elts > 1) { /* * Multiple arguments were passed to "args". pcPtr->objv is * pointing to the first of the var args. We have to copy the * remaining actual argument vector objv to the parse context. */ /*NsfPrintObjv("actual: ", objc, objv);*/ ParseContextExtendObjv(pcPtr, paramDefs->nrParams, elts-1, objv + 1 + pcPtr->lastobjc); } else { /* * A single argument was passed to "args". There is no need to * mutate the pcPtr->objv, because this has been achieved in * ArgumentParse (i.e., pcPtr->objv[i] contains this element). */ } } return TCL_OK; } /* NsfUnsetUnknownArgsCmd was developed and tested for Tcl 8.5 and * needs probably modifications for earlier versions of Tcl. However, * since CANONICAL_ARGS requires Tcl 8.5 this is not an issue. */ int NsfUnsetUnknownArgsCmd(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *CONST objv[]) { CallFrame *varFramePtr = Tcl_Interp_varFramePtr(interp); Proc *proc = Tcl_CallFrame_procPtr(varFramePtr); int i; if (proc) { CompiledLocal *ap; Var *varPtr; for (ap = proc->firstLocalPtr, i=0; ap; ap = ap->nextPtr, i++) { if (!TclIsCompiledLocalArgument(ap)) continue; varPtr = &Tcl_CallFrame_compiledLocals(varFramePtr)[i]; /*fprintf(stderr, "NsfUnsetUnknownArgsCmd var '%s' i %d fi %d var %p flags %.8x obj %p unk %p\n", ap->name, i, ap->frameIndex, varPtr, varPtr->flags, varPtr->value.objPtr, NsfGlobalObjs[NSF___UNKNOWN__]);*/ if (varPtr->value.objPtr != NsfGlobalObjs[NSF___UNKNOWN__]) continue; /*fprintf(stderr, "NsfUnsetUnknownArgsCmd must unset %s\n", ap->name);*/ Tcl_UnsetVar2(interp, ap->name, NULL, 0); } } return TCL_OK; } #if !defined(NDEBUG) static void CheckAllInstances(Tcl_Interp *interp, NsfClass *cl, int lvl) { Tcl_HashSearch search; Tcl_HashEntry *hPtr; if (cl && cl->object.refCount>0) { /*fprintf(stderr, "Checkallinstances %d cl=%p '%s'\n", lvl, cl, className(cl));*/ for (hPtr = Tcl_FirstHashEntry(&cl->instances, &search); hPtr; hPtr = Tcl_NextHashEntry(&search)) { NsfObject *inst = (NsfObject*) Tcl_GetHashKey(&cl->instances, hPtr); assert(inst); assert(inst->refCount>0); assert(inst->cmdName->refCount>0); if (NsfObjectIsClass(inst)) { CheckAllInstances(interp, (NsfClass*) inst, lvl+1); } } } } #endif #ifdef DO_FULL_CLEANUP /* delete global variables and procs */ static void DeleteProcsAndVars(Tcl_Interp *interp) { Tcl_Namespace *nsPtr = Tcl_GetGlobalNamespace(interp); Tcl_HashTable *varTable = nsPtr ? Tcl_Namespace_varTable(ns) : NULL; Tcl_HashTable *cmdTable = nsPtr ? Tcl_Namespace_cmdTable(ns) : NULL; Tcl_HashSearch search; Var *varPtr; Tcl_Command cmd; register Tcl_HashEntry *entryPtr; char *varName; for (entryPtr = Tcl_FirstHashEntry(varTable, &search); entryPtr; entryPtr = Tcl_NextHashEntry(&search)) { Tcl_Obj *nameObj; GetVarAndNameFromHash(entryPtr, &varPtr, &nameObj); if (!TclIsVarUndefined(varPtr) || TclIsVarNamespaceVar(varPtr)) { /* fprintf(stderr, "unsetting var %s\n", ObjStr(nameObj));*/ Tcl_UnsetVar2(interp, ObjStr(nameObj), (char *)NULL, TCL_GLOBAL_ONLY); } } for (entryPtr = Tcl_FirstHashEntry(cmdTable, &search); entryPtr; entryPtr = Tcl_NextHashEntry(&search)) { cmd = (Tcl_Command)Tcl_GetHashValue(entryPtr); if (Tcl_Command_objProc(cmd) == RUNTIME_STATE(interp)->objInterpProc) { char *key = Tcl_GetHashKey(cmdTable, entryPtr); /*fprintf(stderr, "cmdname = %s cmd %p proc %p objProc %p %d\n", key, cmd, Tcl_Command_proc(cmd), Tcl_Command_objProc(cmd), Tcl_Command_proc(cmd)==RUNTIME_STATE(interp)->objInterpProc);*/ Tcl_DeleteCommandFromToken(interp, cmd); } } } #endif #ifdef DO_CLEANUP static int ClassHasSubclasses(NsfClass *cl) { return (cl->sub != NULL); } static int ClassHasInstances(NsfClass *cl) { Tcl_HashSearch hSrch; return (Tcl_FirstHashEntry(&cl->instances, &hSrch) != NULL); } static int ObjectHasChildren(Tcl_Interp *interp, NsfObject *object) { Tcl_Namespace *ns = object->nsPtr; int result = 0; if (ns) { Tcl_HashEntry *hPtr; Tcl_HashSearch hSrch; Tcl_HashTable *cmdTable = Tcl_Namespace_cmdTable(ns); for (hPtr = Tcl_FirstHashEntry(cmdTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { Tcl_Command cmd = Tcl_GetHashValue(hPtr); NsfObject *childObject = NsfGetObjectFromCmdPtr(cmd); if (childObject) { result = 1; break; } } } return result; } static void FinalObjectDeletion(Tcl_Interp *interp, NsfObject *object) { /* If a call to exit happens from a higher stack frame, the object refcount might not be decremented correctly. If we are in the physical destroy round, we can set the counter to an appropriate value to ensure deletion. todo: remove debug line */ if (object->refCount != 1) { fprintf(stderr, "*** have to fix refcount for obj %p refcount %d",object, object->refCount); if (object->refCount > 1) { fprintf(stderr, " (name %s)",objectName(object)); } fprintf(stderr, "\n"); object->refCount = 1; } assert(object->activationCount == 0); /*fprintf(stderr, "FinalObjectDeletion obj %p activationcount %d\n", object, object->activationCount);*/ if (object->id) { /*fprintf(stderr, "cmd dealloc %p final delete refCount %d\n", object->id, Tcl_Command_refCount(object->id));*/ Tcl_DeleteCommandFromToken(interp, object->id); } } static void FreeAllNsfObjectsAndClasses(Tcl_Interp *interp, Tcl_HashTable *commandNameTable) { Tcl_HashEntry *hPtr, *hPtr2; Tcl_HashSearch hSrch, hSrch2; NsfObject *object; int deleted = 0; /*fprintf(stderr, "FreeAllNsfObjectsAndClasses in %p\n", interp);*/ RUNTIME_STATE(interp)->exitHandlerDestroyRound = NSF_EXITHANDLER_ON_PHYSICAL_DESTROY; /* * First delete all child commands of all objects, which are not * objects themselves. This will for example delete namespace * imported commands and objects and will resolve potential loops in * the dependency graph. The result is a plain object/class tree. */ for (hPtr = Tcl_FirstHashEntry(commandNameTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { char *key = Tcl_GetHashKey(commandNameTable, hPtr); object = GetObjectFromString(interp, key); /* delete per-object methods */ if (object && object->nsPtr) { for (hPtr2 = Tcl_FirstHashEntry(Tcl_Namespace_cmdTable(object->nsPtr), &hSrch2); hPtr2; hPtr2 = Tcl_NextHashEntry(&hSrch2)) { Tcl_Command cmd = Tcl_GetHashValue(hPtr2); if (cmd) { if (Tcl_Command_objProc(cmd) == NsfObjDispatch) { AliasDeleteObjectReference(interp, cmd); continue; } Tcl_DeleteCommandFromToken(interp, cmd); deleted ++; } } } /* * Delete class methods; these methods might have aliases (dependencies) to * objects, which will resolved this way. */ if (NsfObjectIsClass(object)) { for (hPtr2 = Tcl_FirstHashEntry(Tcl_Namespace_cmdTable(((NsfClass *)object)->nsPtr), &hSrch2); hPtr2; hPtr2 = Tcl_NextHashEntry(&hSrch2)) { Tcl_Command cmd = Tcl_GetHashValue(hPtr2); if (cmd) { if (Tcl_Command_objProc(cmd) == NsfObjDispatch) { AliasDeleteObjectReference(interp, cmd); continue; } } } } } /*fprintf(stderr, "deleted %d cmds\n", deleted);*/ /* * Finally delete the object/class tree in a bottom up manner, * deleteing all objects without dependencies first. Finally, only * the root classes of the object system will remain, which are * deleted separately. */ while (1) { /* * Delete all plain objects without dependencies */ deleted = 0; for (hPtr = Tcl_FirstHashEntry(commandNameTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { char *key = Tcl_GetHashKey(commandNameTable, hPtr); object = GetObjectFromString(interp, key); if (object && !NsfObjectIsClass(object) && !ObjectHasChildren(interp, object)) { /*fprintf(stderr, " ... delete object %s %p, class=%s id %p\n", key, object, className(object->cl), object->id);*/ FreeUnsetTraceVariable(interp, object); if (object->id) FinalObjectDeletion(interp, object); Tcl_DeleteHashEntry(hPtr); deleted++; } } /* fprintf(stderr, "deleted %d Objects without dependencies\n", deleted);*/ if (deleted > 0) { continue; } /* * Delete all classes without dependencies */ for (hPtr = Tcl_FirstHashEntry(commandNameTable, &hSrch); hPtr; hPtr = Tcl_NextHashEntry(&hSrch)) { char *key = Tcl_GetHashKey(commandNameTable, hPtr); NsfClass *cl = GetClassFromString(interp, key); /*fprintf(stderr, "cl key = %s %p\n", key, cl);*/ if (cl && !ObjectHasChildren(interp, (NsfObject*)cl) && !ClassHasInstances(cl) && !ClassHasSubclasses(cl) && !IsBaseClass(cl) ) { /*fprintf(stderr, " ... delete class %s %p\n", key, cl); */ FreeUnsetTraceVariable(interp, &cl->object); if (cl->object.id) FinalObjectDeletion(interp, &cl->object); Tcl_DeleteHashEntry(hPtr); deleted++; } } /*fprintf(stderr, "deleted %d Classes\n", deleted);*/ if (deleted == 0) { break; } } } #endif /* DO_CLEANUP */ /* * Exit Handler */ static void ExitHandler(ClientData clientData) { Tcl_Interp *interp = (Tcl_Interp *)clientData; int i, flags; /*fprintf(stderr, "ExitHandler\n");*/ /* * Don't use exit handler, if the interpreter is alread destroyed. * Call to exit handler comes after freeing namespaces, commands, etc. * e.g. TK calls Tcl_DeleteInterp directly, if Window is killed */ /* * Ahem ... * * Since we *must* be sure that our destroy methods will run * we must *cheat* (I mean CHEAT) here: we flip the interp * flag, saying, "hey boy, you're not deleted any more". * After our handlers are done, we restore the old state... * All this is needed so we can do an eval in the interp which * is potentially marked for delete when we start working here. * * I know, I know, this is not really elegant. But... I'd need a * standard way of invoking some code at interpreter delete time * but JUST BEFORE the actual deletion process starts. Sadly, * there is no such hook in Tcl as of Tcl8.4.*, that I know of. * * So, for the rest of procedure, assume the interp is alive ! */ flags = Tcl_Interp_flags(interp); Tcl_Interp_flags(interp) &= ~DELETED; CallStackPopAll(interp); if (RUNTIME_STATE(interp)->exitHandlerDestroyRound == NSF_EXITHANDLER_OFF) { NsfFinalizeObjCmd(interp); } /* must be before freeing of NsfGlobalObjs */ NsfShadowTclCommands(interp, SHADOW_UNLOAD); /* free global objects */ for (i = 0; i < nr_elements(NsfGlobalStrings); i++) { DECR_REF_COUNT(NsfGlobalObjs[i]); } NsfStringIncrFree(&RUNTIME_STATE(interp)->iss); #if defined(TCL_MEM_DEBUG) TclDumpMemoryInfo(stderr); Tcl_DumpActiveMemory("./nsfActiveMem"); /* Tcl_GlobalEval(interp, "puts {checkmem to checkmemFile}; checkmem checkmemFile"); */ #endif MEM_COUNT_DUMP(); FREE(Tcl_Obj**, NsfGlobalObjs); FREE(NsfRuntimeState, RUNTIME_STATE(interp)); Tcl_Interp_flags(interp) = flags; Tcl_Release((ClientData) interp); } #if defined(TCL_THREADS) /* * Gets activated at thread-exit */ static void Nsf_ThreadExitProc(ClientData clientData) { /*fprintf(stderr, "+++ Nsf_ThreadExitProc\n");*/ void Nsf_ExitProc(ClientData clientData); Tcl_DeleteExitHandler(Nsf_ExitProc, clientData); ExitHandler(clientData); } #endif /* * Gets activated at application-exit */ void Nsf_ExitProc(ClientData clientData) { /*fprintf(stderr, "+++ Nsf_ExitProc\n");*/ #if defined(TCL_THREADS) Tcl_DeleteThreadExitHandler(Nsf_ThreadExitProc, clientData); #endif ExitHandler(clientData); } /* * Registers thread/appl exit handlers. */ static void RegisterExitHandlers(ClientData clientData) { Tcl_Preserve(clientData); #if defined(TCL_THREADS) Tcl_CreateThreadExitHandler(Nsf_ThreadExitProc, clientData); #endif Tcl_CreateExitHandler(Nsf_ExitProc, clientData); } /* * Tcl extension initialization routine */ extern int Nsf_Init(Tcl_Interp *interp) { ClientData runtimeState; int result, i; #ifdef NSF_BYTECODE NsfCompEnv *interpstructions = NsfGetCompEnv(); #endif static NsfMutex initMutex = 0; #ifdef USE_TCL_STUBS if (Tcl_InitStubs(interp, "8.1", 0) == NULL) { return TCL_ERROR; } #endif #if defined(TCL_MEM_DEBUG) TclDumpMemoryInfo(stderr); #endif MEM_COUNT_INIT(); /* init global variables for tcl types */ NsfMutexLock(&initMutex); byteCodeType = Tcl_GetObjType("bytecode"); tclCmdNameType = Tcl_GetObjType("cmdName"); listType = Tcl_GetObjType("list"); NsfMutexUnlock(&initMutex); /* fprintf(stderr, "SIZES: obj=%d, tcl_obj=%d, DString=%d, class=%d, namespace=%d, command=%d, HashTable=%d\n", sizeof(NsfObject), sizeof(Tcl_Obj), sizeof(Tcl_DString), sizeof(NsfClass), sizeof(Namespace), sizeof(Command), sizeof(Tcl_HashTable)); */ /* * Runtime State stored in the client data of the Interp's global * Namespace in order to avoid global state information */ runtimeState = (ClientData) NEW(NsfRuntimeState); memset(runtimeState, 0, sizeof(NsfRuntimeState)); #if USE_ASSOC_DATA Tcl_SetAssocData(interp, "NsfRuntimeState", NULL, runtimeState); #else Tcl_Interp_globalNsPtr(interp)->clientData = runtimeState; #endif RUNTIME_STATE(interp)->doFilters = 1; RUNTIME_STATE(interp)->doCheckResults = 1; RUNTIME_STATE(interp)->doCheckArguments = 1; /* create nsf namespace */ RUNTIME_STATE(interp)->NsfNS = Tcl_CreateNamespace(interp, "::nsf", (ClientData)NULL, (Tcl_NamespaceDeleteProc*)NULL); MEM_COUNT_ALLOC("TclNamespace", RUNTIME_STATE(interp)->NsfNS); /* * init an empty, faked proc structure in the RUNTIME state */ RUNTIME_STATE(interp)->fakeProc.iPtr = (Interp *)interp; RUNTIME_STATE(interp)->fakeProc.refCount = 1; RUNTIME_STATE(interp)->fakeProc.cmdPtr = NULL; RUNTIME_STATE(interp)->fakeProc.bodyPtr = NULL; RUNTIME_STATE(interp)->fakeProc.numArgs = 0; RUNTIME_STATE(interp)->fakeProc.numCompiledLocals = 0; RUNTIME_STATE(interp)->fakeProc.firstLocalPtr = NULL; RUNTIME_STATE(interp)->fakeProc.lastLocalPtr = NULL; /* NsfClasses in separate Namespace / Objects */ RUNTIME_STATE(interp)->NsfClassesNS = Tcl_CreateNamespace(interp, "::nsf::classes", (ClientData)NULL, (Tcl_NamespaceDeleteProc*)NULL); MEM_COUNT_ALLOC("TclNamespace", RUNTIME_STATE(interp)->NsfClassesNS); /* cache interpreters proc interpretation functions */ RUNTIME_STATE(interp)->objInterpProc = TclGetObjInterpProc(); RUNTIME_STATE(interp)->exitHandlerDestroyRound = NSF_EXITHANDLER_OFF; RegisterExitHandlers((ClientData)interp); NsfStringIncrInit(&RUNTIME_STATE(interp)->iss); /* initialize global Tcl_Obj */ NsfGlobalObjs = NEW_ARRAY(Tcl_Obj*, nr_elements(NsfGlobalStrings)); for (i = 0; i < nr_elements(NsfGlobalStrings); i++) { NsfGlobalObjs[i] = Tcl_NewStringObj(NsfGlobalStrings[i], -1); INCR_REF_COUNT(NsfGlobalObjs[i]); } /* create namespaces for the different command types */ Tcl_CreateNamespace(interp, "::nsf::cmd", 0, (Tcl_NamespaceDeleteProc*)NULL); for (i=0; i < nr_elements(method_command_namespace_names); i++) { Tcl_CreateNamespace(interp, method_command_namespace_names[i], 0, (Tcl_NamespaceDeleteProc*)NULL); } /* create all method commands (will use the namespaces above) */ for (i=0; i < nr_elements(method_definitions)-1; i++) { Tcl_CreateObjCommand(interp, method_definitions[i].methodName, method_definitions[i].proc, 0, 0); } /* * overwritten tcl objs */ result = NsfShadowTclCommands(interp, SHADOW_LOAD); if (result != TCL_OK) return result; /* * new tcl cmds */ #ifdef NSF_BYTECODE instructions[INST_NEXT].cmdPtr = (Command *) #endif Tcl_CreateObjCommand(interp, "::nsf::next", NsfNextObjCmd, 0, 0); #ifdef NSF_BYTECODE instructions[INST_SELF].cmdPtr = (Command *)Tcl_FindCommand(interp, "::nsf::current", 0, 0); #endif /*Tcl_CreateObjCommand(interp, "::nsf::K", NsfKObjCmd, 0, 0);*/ Tcl_CreateObjCommand(interp, "::nsf::unsetUnknownArgs", NsfUnsetUnknownArgsCmd, 0, 0); #ifdef NSF_BYTECODE NsfBytecodeInit(); #endif Tcl_SetVar(interp, "::nsf::version", NSF_VERSION, TCL_GLOBAL_ONLY); Tcl_SetVar(interp, "::nsf::patchlevel", NSF_PATCHLEVEL, TCL_GLOBAL_ONLY); Tcl_AddInterpResolvers(interp,"nxt", (Tcl_ResolveCmdProc*)InterpColonCmdResolver, InterpColonVarResolver, (Tcl_ResolveCompiledVarProc*)InterpCompiledColonVarResolver); RUNTIME_STATE(interp)->colonCmd = Tcl_FindCommand(interp, "::nsf::colon", 0, 0); /* * with some methods and library procs in tcl - they could go in a * nsf.tcl file, but they're embedded here with Tcl_GlobalEval * to avoid the need to carry around a separate file at runtime. */ { #include "predefined.h" /* fprintf(stderr, "predefined=<<%s>>\n", cmd);*/ if (Tcl_GlobalEval(interp, cmd) != TCL_OK) { static char cmd[] = "puts stderr \"Error in predefined code\n\ $::errorInfo\""; Tcl_EvalEx(interp, cmd, -1, 0); return TCL_ERROR; } } #ifndef AOL_SERVER /* the AOL server uses a different package loading mechanism */ # ifdef COMPILE_NSF_STUBS # if defined(PRE86) Tcl_PkgProvideEx(interp, "nsf", PACKAGE_VERSION, (ClientData)&nsfStubs); # else Tcl_PkgProvideEx(interp, "nsf", PACKAGE_VERSION, (ClientData)&nsfConstStubPtr); # endif # else Tcl_PkgProvide(interp, "nsf", PACKAGE_VERSION); # endif #endif #if !defined(TCL_THREADS) if ((Tcl_GetVar2(interp, "tcl_platform", "threaded", TCL_GLOBAL_ONLY) != NULL)) { /* a non threaded version of nsf is loaded into a threaded environment */ fprintf(stderr, "\n A non threaded version of the Next Scripting Framework " "is loaded into threaded environment.\n" "Please reconfigure nsf with --enable-threads!\n\n\n"); } #endif Tcl_ResetResult(interp); Tcl_SetIntObj(Tcl_GetObjResult(interp), 1); return TCL_OK; } extern int Nsf_SafeInit(Tcl_Interp *interp) { /*** dummy for now **/ return Nsf_Init(interp); }